CN106343896A - High-efficiency and energy-saving baking pan - Google Patents

Abstract

Provided is a high-efficiency and energy-saving baking pan. A body comprises a big body, a heater, a cooker, a food turning device, an air inlet hole and a cooling fan, wherein the heater is at least one lower heater. The high-efficiency and energy-saving baking pan is characterized in that the big body is used for containing the cooker, the food turning device and the lower heater, the big body provides a heat source for conduction and heating of the bottom of a food; the cooling is used for heating constant temperature in a stereo heating cavity or relatively reduced temperature in the stereo heating cavity, one end of the cooling fan is in through connection with outside air, the other end of the cooling fan is in through connection with the heating cavity through a gap between the outer side of the cooker and a heat insulation layer, the cooling fan makes outside low-temperature air flow along the bottom of the heater and rise to an opening of the cooker through the outer side of the cooker, at least one part of airflow is mixed with high temperature in the heating cavity, and then heating is provided for the constant temperature in the stereo heating cavity or relatively reduced temperature in the stereo heating cavity. The high-efficiency and energy-saving baking pan has the advantages of being good in cooking effect, easy to mount and dismount, easy to clean and wide in application range.

Description

Can energy-efficient roaster

Technical field

The present invention relates to can energy-efficient roaster.

Background technology

Traditional frying pan generally comprises to provide and covers in heating and heating bodice.But constantly carrying with people's living standard Height, single toasting performance is difficult to meet the needs of market development, and for this situation, some manufacturers have made a little improvement, such as in State Patent document number cn 202341751 u discloses a kind of three-dimensional heating multifunctional wok on July 25th, 2012, particularly A kind of a kind of three-dimensional heating multifunctional wok of household small-size, including the pot cover being hinged in pot, is provided with embedded pan gallbladder in pot Cooking cavity, turning device is arranged in pot gallbladder, and the corresponding pot gallbladder top of its pot cover is provided with auxiliary heat generating component, and it produces heat Stream and heat radiation heat to food top and sidepiece；The bottom of the corresponding pot gallbladder of pot is provided with lower main heat generating component, and it is to food Bottom conductive heats；It is provided with the heating air duct around pot gallbladder interior circulation in pot cover or pot.Pot is surrounded jointly with pot cover The cooking cavity of opposing seal, pot cover is provided with the protective cover that can block auxiliary heat generating component, protection shroud rim and cooking cavity Relatively airtight；Heating air duct is looped around pot cover top, or the outside being looped around pot cooking cavity.The interior circulation heating of the present invention Air channel, makes to produce convection current in pot gallbladder, to food three-dimensional heating, the heating surface area of food is maximized, and is heated evenly, thoroughly Solve the problems, such as that food is heated inequality.

Its shortcoming is that power is big, and body fuselage temperature is high, needs high-temperature material price expensive, and body outward appearance accessory is aging fast, Cleaning is inconvenient, and production cost is higher, so needing to improve.

Content of the invention

The purpose of the present invention aims to provide a kind of simple and reasonable, flexible operation, culinary art good, the easy assembly and disassembly of effect, Yi Qing The energy-efficient roaster of energy clean, applied widely, to overcome weak point of the prior art.

By the energy-efficient roaster of energy of this purpose design, main body includes bodice, heater, pot, food Rolling device, enters Pore, cooling fan, described heater is at least a lower heater, it is characterized in that bodice is used for accommodating pot, food rolling Device, lower heater, described bodice provides the thermal source of conduction heating to food bottom；

Described cooling fan one is used for three-dimensional heating intracavity constant temperature or relatively lowers the temperature heating to three-dimensional heating intracavity, described fall Warm air fan is arranged on the outside in three-dimensional heating chamber；

Described cooling fan one end is connected with extraneous air insertion, and the other end passes through the space between pot lateral part and thermal insulation layer With heating intracavity insertion be connected, cooling fan by outer low temperature air along lower heater flows, by pot lateral part Be raised to the opening of pot, at least a portion air-flow mix with heating chamber internal high temperature after to three-dimensional heating intracavity constant temperature or to solid The relative heating of lowering the temperature of heating intracavity；

Described cooling fan air-blowing is arranged along the gap on gas outlet or main body to a part of air-flow of major general with heating intracavity vapor Go out；

Described cooling fan is at least provided with one lower cooling fan of one-tenth；

One pot is used for accommodating food and to the heating of food bottom conductive；

One food Rolling device is used for turning food, causes food to be heated evenly three-dimensional heating；

One temperature controller or temperature probe are used for limiting the heating-up temperature of heating intracavity.

The opening that described cooling fan air-blowing rises to pot along pot lateral part forms an air curtain from the bottom to top；Wind Curtain encloses scratches the rising of pot lateral part, and air curtain is tubulose or strip or arc rises；

Outer low temperature air and the mixed temperature of heating chamber internal high temperature are at least not less than 160 degree by described cooling fan；

Described temperature controller or at least one second temperature controller of temperature probe or temperature probe are arranged on thermal insulation layer bottom or lower heating Device bottom.

Described cooling fan is at least provided with one；Described upper lid is by enclosing cover, bottom, upper heater, the first reflector, protection Cover, air inlet, Transparent Parts composition；

Or, described upper lid is by enclosing cover, bottom, upper heater, the first reflector, protective cover, air inlet, upper cooling fan group Become；

Or, described upper lid is made up of enclosing cover, bottom, upper heater, air inlet, upper cooling fan；

Described upper lid is organized into an insulated cavity or passage by enclosing cover and bottom；

Or, described upper lid is organized into an insulated cavity or passage by enclosing cover and the first reflector；

Described upper lid arranges protective cover, upper heater, the first reflector, enclosing cover from the bottom to top；

Or, described upper lid arranges upper heater, the first reflector, enclosing cover from the bottom to top；

Or, described upper lid arranges bottom, upper heater, the first reflector, enclosing cover from the bottom to top；

Or, described upper lid arranges upper heater, the first reflector, the second reflector, enclosing cover from the bottom to top；First reflector with Setting channel end setting air outlet between second reflector；

Described first reflector top or side or periphery setting air outlet, lower-temperature external air is along air outlet from top to bottom to vertical Body heating intracavity flowing, lowers the temperature to the enclosing cover of upper lid simultaneously, the hot-air of lower-temperature external air driven three-dimensional heating intracavity Mobile mixing from top to bottom；

Described first reflector is independently arranged or the first reflector and bottom are wholely set；

Described upper lid one end is rotated with bodice and is connected.

Described bodice is made up of thermal insulation layer, lower heater, motor, base, or bodice by thermal insulation layer, lower heater, motor, Base, lower cooling fan form, or bodice is made up of thermal insulation layer, lower heater, motor, base, lower cooling fan, air inlet；

Thermal insulation layer arranges upward opening, and thermal insulation layer bottom arranges lower heater, inside lower heater or periphery setting motor or electricity Machine driving head, arranges gap, thermal insulation layer bottom or the lower cooling fan of side setting, declines between thermal insulation layer bottom and lower heater Warm air fan is arranged in the cavity between thermal insulation layer and base；

The air inlet openings of lower cooling fan are connected with outside insertion, and the inflatable mouth of lower cooling fan is with thermal insulation layer opening insertion even Connect, outside air is blowed to lower heater bottom or the second temperature controller surface by lower cooling fan, lower cooling fan will be cold for outside Air is lowered the temperature to lower heater bottom and is converted into warm warm air and stands along the gap entrance between thermal insulation layer bottom and lower heater Body heats intracavity, then through the gap between bodice and upper lid or upper lid after mixing with the hot humid hot-air of three-dimensional heating intracavity Air-vent flow out body exterior；

Or, the air inlet openings of upper cooling fan are connected with outside insertion, the inflatable mouth of upper cooling fan and upper lid insulated cavity Or passage insertion connects, outside air is blowed to upper heater top or the first reflector top or the first temperature by upper cooling fan Control device surface cooling, cool exterior air is lowered the temperature to the first reflector top and is converted into warm warm air along first by upper cooling fan The perforate on reflector periphery air outlet or the first reflector top enters three-dimensional heating intracavity, then the high temperature with three-dimensional heating intracavity After moist hot air mixing, the air-vent through the gap between bodice and upper lid or upper lid flows out body exterior；

Outer low temperature air is given solid with the mixed temperature of heating chamber internal high temperature at least degree of being not less than by described cooling fan Heat intracavity constant temperature or to the relative heating of lowering the temperature of three-dimensional heating intracavity.

The air outlet of described upper cooling fan forms a sinking air curtain, is high temperature air inside air curtain, and outside is relatively Cryogenic air, air curtain mixes after flowing to bottom of pot body or food upper surface；

Further, the low-temperature airflow at least some of described lower cooling fan blows over the second temperature controller or temperature probe surface fall Temperature, or at least a part of low-temperature airflow blow over lower heater be converted into warm wet flow into that pot is outside and thermal insulation layer inside between, Enter pot nside, flow out body exterior along the gap between upper lid and bodice or the gap in main body, vapor is accelerated row Go out body exterior, accelerate drying and the Surface hardened layer of food, shorten the heat time heating time of food, keep between pot each food interior The gap condition of high temperature consistent, the aperture temp reducing between food is poor, the efficiency of raising bottom heater, forces lower heater The heat energy to bottom radiation loss during heating is converted into warm warm air and enters in pot, to the food auxiliary heating in pot, The caloric value realizing lower heater is consistent with the caloric value of upper heater, or the caloric value of lower heater is more than sending out of upper heater Heat.

Described lower cooling fan downstream arranges the second temperature controller or temperature probe or fuse；

Lower cooling fan is blown to lower the temperature to the second temperature controller or temperature probe and is extended the heater of the second temperature controller or temperature probe Make the time, or shorten the second temperature controller or the out-of-work power-off time of temperature probe, thus shortening net cycle time；Or to plus Hot device blows low-temperature airflow and exchanges frequently by heater is cold and hot, reduces high-low temperature difference homogeneous heating.

Described passage is arranged on the side of the second temperature controller or temperature probe, and channel inlet end is connected with outside insertion, leads to The second temperature controller or temperature probe are pointed in road outlet side, and passage is by blowing to the second temperature controller or temperature control by outside Cryogenic air Probe cooling；

Second temperature controller or temperature probe or fuse are arranged on thermal insulation layer or on heater.

The heat slow flow that lower heater is lost by the low wind speed of described lower cooling fan；The shell of bottom is entered simultaneously Row cooling；

Described lower cooling fan is arranged on bottom or the side of lower heater, air-flow sluggish flow from the bottom to top, causes lower heating Device keeps condition of high temperature heating uniformly, expands the area of pot thermally equivalent, at least expands the face of the thermally equivalent of pot sidepiece Long-pending, or, at least expand the area of the thermally equivalent of bottom of pot body, air-flow is along the gap between thermal insulation layer and lower heater upwards Flowing, enters pot opening through pot sidepiece, and at least a part of gas flows out along the gap in main body with moisture content.

Described upper cooling fan or lower cooling fan or passage are closely arranged on temperature controller or the side of temperature probe is passed through Lead to and connect cooling, or described upper cooling fan or lower cooling fan pass through air channel and temperature controller or temperature probe insertion at a distance Connect cooling；

The wind speed of described upper cooling fan or lower cooling fan is at least below per hour three kilometers；Low wind speed accelerates heater to week The environment homogeneous heating enclosed；

Described air-flow is extraneous air or at least main air-flow is extraneous air；

Described upper cooling fan air channel is fixedly connected in main body；

Described passage be independently arranged or passage be combine；

Described upper cooling fan or lower cooling fan be separately positioned on Shang Gai with big with together with work, or upper cooling fan or Lower cooling fan is separately positioned on Shang Gai and big autonomous working with it.

It is additionally provided with motor, pot is connected with the output shaft of motor in described bodice；

Described food Rolling device is arranged in pot, and food Rolling device and pot relative rotary motion are to the food in pot It is stirred overturning；

It is additionally provided with the support for shelving food or meal tray in described pot；

Pot periphery also includes the split type handle for picking and placeing pot；

Setting food Rolling device in described pot, bottom of pot body arranges lower heater, the periphery of pot or lower heater bottom Setting thermal insulation layer, thermal insulation layer bottom or lower heater bottom setting temperature controller or temperature probe, temperature controller or temperature probe bottom Or the lower cooling fan of downstream setting, lower cooling fan bottom arranges bottom.

Described pot and upper lid surround the three-dimensional heating chamber of opposing seal jointly, above cover the cooling fan of setting outer circulation Relatively lower the temperature heating for three-dimensional heating intracavity constant temperature or to three-dimensional heating intracavity, or, above cover setting and assist heating group Part, the heating fan blade on auxiliary heat generating component is arranged on three-dimensional heating intracavity, and motor is arranged on the outside in three-dimensional heating chamber；Heating Air channel is looped around tops；Heating fan blade on auxiliary heat generating component, to the food auxiliary heating in pot, realizes lower heating The caloric value of device is consistent with the caloric value of upper heater, or the caloric value of lower heater is more than the caloric value of upper heater；

Described upper heater is in the same size with the heating power of lower heater, or, the heating power of lower heater is more than upper adding The heating power of hot device, or, the fever time of lower heater is more than the fever time of upper heater；

The cooling fan of setting outer circulation is covered, for three-dimensional heating intracavity constant temperature or relative to three-dimensional heating intracavity on described Cooling heating is thermally formed three-dimensional heating chamber with bodice bottom conductive；Or, described on cover setting outer circulation cooling wind Fan, arranges the fall of outer circulation for three-dimensional heating intracavity constant temperature or to three-dimensional heating intracavity cooling heating and bodice bottom relatively Warm air fan and bottom conductive are thermally formed three-dimensional heating chamber, and cooling fan is used for three-dimensional heating intracavity constant temperature or to three-dimensional heating The relative heating of lowering the temperature of intracavity；

Or, described on cover setting auxiliary heat generating component interior circulation heating fan blade, with bodice bottom arrange outer circulation fall Warm air fan and bottom conductive are thermally formed three-dimensional heating chamber, and cooling fan is used for three-dimensional heating intracavity constant temperature or to three-dimensional heating The relative heating of lowering the temperature of intracavity；

Or, described on cover setting auxiliary heat generating component interior circulation heating fan blade, with bodice bottom conductive be thermally formed vertical Body heating chamber.

The air inlet of the heating air duct on described auxiliary heat generating component is opened in the middle part of protective cover, and air outlet is opened in protection Cover is outside, is provided with, in upper lid, the heating blower that the air that air inlet can be entered is evacuated to air outlet discharge, heating blower is located at Upper auxiliary heat generating component top；Or, the air inlet of heating air duct is arranged on the medial wall in pot three-dimensional heating chamber, and air outlet sets Put between pot cover and protective cover, in pot, be provided with the heating wind that the air that air inlet can be entered is evacuated to air outlet discharge Machine, heating blower is located at outside three-dimensional heating chamber；

Described upper heater or lower heater are halide torch, carbon pipe, quartz ampoule, metal tube or heating wire, lower main heat generating component For metal heat-generating pipe.

A kind of according to claim to any one of the heating of the energy-efficient roaster of described energy, cooling, aerofluxuss method, It is characterized in that, comprise the steps:

A, upper cooling fan are arranged on and cover, and upper cooling fan, will by insulated cavity or passage by outside air suction Outside air blows to upper heater top or the first reflector top or the first temperature controller surface cooling, forces upper heater top The surface of portion or the first reflector top or the first temperature controller rises hot-fluid and from top to bottom flows, and cool exterior air is anti-to first Penetrate cover top lower the temperature and be converted into warm warm air along the perforate on the first reflector periphery air outlet or the first reflector top or Setting channel end setting air outlet between first reflector and the second reflector；Enter three-dimensional heating intracavity, then add with three-dimensional After the hot humid hot-air mixing of hot intracavity, the air-vent through the gap between bodice and upper lid or upper lid flows out body exterior； Isolation between first reflector top and enclosing cover is reached the anti-scald effect of enclosing cover cooling by the flowing of outside cold air；

Or, inside lower cooling fan bodice, internal by being arranged on upper lid, upper cooling fan, by outside air suction, leads to The cavity crossed between thermal insulation layer and base is connected with the insulated cavity above covering or passage insertion, outside air is blowed to and adds Hot device top or the first reflector top or the first temperature controller surface cooling, force upper heater top or the first reflector top Or first temperature controller surface rise hot-fluid from top to bottom flow, cool exterior air is lowered the temperature and is changed to the first reflector top Become warm warm air anti-with second along the first reflector periphery air outlet or the perforate on the first reflector top or the first reflector Penetrate setting channel end setting air outlet between cover；Enter three-dimensional heating intracavity, then the hot humid heat with three-dimensional heating intracavity After air mixing, the air-vent through the gap between bodice and upper lid or upper lid flows out body exterior；The flowing of outside cold air Isolation between first reflector top and enclosing cover is reached the anti-scald effect of enclosing cover cooling；

Or, the air inlet openings of lower cooling fan are connected with outside insertion, and the inflatable mouth of lower cooling fan and thermal insulation layer opening pass through Lead to and connect, outside air is blowed to lower heater bottom or the second temperature controller surface by lower cooling fan, lower cooling fan will be outer Portion's cold air lowers the temperature to lower heater bottom and is converted into warm warm air to enter along the gap between lower heater bottom and thermal insulation layer Enter three-dimensional heating intracavity, then after mixing with the hot humid hot-air of three-dimensional heating intracavity through the gap between bodice and upper lid or The air-vent of upper lid flows out body exterior；Isolation between lower heater bottom and thermal insulation layer is reached by the flowing of outside cold air The anti-scald effect of bottom cooling.

A kind of according to claim to any one of the energy-efficient roaster of described energy heating method, its feature exists In comprising the steps:

A, upper cooling fan are arranged on and cover, upper cooling fan by outside air suction, by the first reflector top or First temperature controller surface cooling, the air outlet along the periphery of the first reflector from top to bottom flows, described air outlet at least one Setting, air outlet forms an air curtain, and the heat that the upper heater of inner side is produced from top to bottom drives and flows to food table Face is heated, or, air outlet is combined into an air curtain, and the heat that the upper heater of inner side is produced from top to bottom drives stream To foodstuff surface heating；

Or, the air inlet openings of lower cooling fan are connected with outside insertion, and lower cooling fan is by cool exterior air to lower heater Bottom lowers the temperature and is converted into warm warm air and forms an air curtain from the bottom to top along the gap between lower heater bottom and thermal insulation layer Enter three-dimensional heating intracavity, by the gap isolation between the high-temperature hot air of three-dimensional heating intracavity and bodice and upper lid, it is to avoid high Warm air quickly outflows, and increases high-temperature hot air and heats food offer efficient energy-saving in the time of staying of three-dimensional heating intracavity Purpose.

The present invention adopts Motor drive pot around its axis rotation, makes the food rolling device being connected in pot with bodice Produce relative motion with pot, the spring shovel being connected with food rolling device, during promoting food, is positioned in pot Food rolls in the presence of food rolling device, food thermally equivalent, this food energy under the cold wind effect sent from air outlet Firmly interior soft culinary art effect outside enough acquisitions, improves cuisine flavour further.

The opening direction of the air outlet in the present invention towards the overlapping position of food Rolling device and pot, to only in this coincidence The food at place carries out surface cooling, and does not affect the conventional cooking of the food in other regions, on the basis guaranteeing cooking quality On, improve cooking efficiency.

The present invention is additionally provided with the support for shelving food or meal tray in pot, on heater is arranged on When covering, the distance between food and heater can be shortened, improve temperature rise, meet the culinary art demand of barbecue group food.

Food Rolling device in the present invention includes food rolling device and spring shovel, and spring shovel is main in the rolling of food Help out, the tumbling effect of food can be lifted further；For the ease of picking and placeing pot, additionally provide split type handle.

The present invention has simple and reasonable, flexible operation, culinary art good, the easy assembly and disassembly of effect, easy to clean, applied widely Feature.

Brief description

Fig. 1 is one embodiment of the invention interior circulation and outer circulation mixed airflow cross section structure diagram.

Fig. 2 is arranged on upper tops cross section structure diagram for another embodiment of the present invention cooling fan.

Fig. 3 is arranged on radiating cross section structure diagram up and down for one embodiment of the invention cooling fan.

Fig. 4 is arranged on upper lid side radiating cross section structure diagram for one embodiment of the invention cooling fan.

Fig. 5 is one embodiment of the invention cooling fan setting bottom radiating cross section structure diagram.

Fig. 6 forms air curtain cross section structure diagram for one embodiment of the invention cooling fan setting bottom radiating.

Specific embodiment

Below in conjunction with the accompanying drawings and embodiment the invention will be further described.

Referring to Fig. 1-Fig. 6, the energy-efficient roaster of energy, main body 01 includes bodice 1, heater, pot 3, food Rolling device 11st, air inlet 32, cooling fan, described heater is at least a lower heater 44, it is characterized in that bodice 1 is used for accommodating pot 3rd, food Rolling device 11, lower heater 44, described bodice 1 provides the thermal source of conduction heating to food bottom；

Described cooling fan one is used for constant temperature in three-dimensional heating chamber 55 or to cooling heating relatively, institute in three-dimensional heating chamber 55 State the outside that cooling fan is arranged on three-dimensional heating chamber 55；

Described cooling fan one end is connected with extraneous air insertion, and the other end passes through between pot 3 lateral part and thermal insulation layer 91 Space with heating intracavity insertion be connected, cooling fan by outer low temperature air along lower heater 44 flows, by pot 3 outside Sidepiece rises to the opening of pot 3, at least a portion air-flow mix with heating chamber internal high temperature after to permanent in three-dimensional heating chamber 55 Temperature or to cooling heating relatively in three-dimensional heating chamber 55；

Described cooling fan air-blowing is to a part of air-flow of major general and heating intracavity vapor along the gap on gas outlet or main body 01 31 discharges；

Described cooling fan is at least provided with one lower cooling fan 45 of one-tenth；

One pot 3 is used for accommodating food and to the heating of food bottom conductive；

One food Rolling device 11 is used for turning food, causes food to be heated evenly three-dimensional heating；

One temperature controller or temperature probe are used for limiting the heating-up temperature of heating intracavity.

The opening that described cooling fan air-blowing rises to pot 3 along pot 3 lateral part forms an air curtain from the bottom to top 404；Air curtain 404 encloses scratches the rising of pot 3 lateral part, and air curtain 404 is tubulose or strip or arc rises；

Outer low temperature air and the mixed temperature of heating chamber internal high temperature are at least not less than 160 degree by described cooling fan；

Described temperature controller or at least one second temperature controller of temperature probe or temperature probe 403 be arranged on thermal insulation layer 91 bottom or under Heater 44 bottom.

Described cooling fan is at least provided with one；Described upper lid 2 is anti-by enclosing cover 20, bottom 101, upper heater 41, first Penetrate cover 35, protective cover 10, air inlet 32, Transparent Parts composition；

Or, described upper lid 2 by enclosing cover 20, bottom 101, upper heater 41, the first reflector 35, protective cover 10, air inlet 32, Upper cooling fan 46 forms；

Or, described upper lid 2 is made up of enclosing cover 20, bottom 101, upper heater 41, air inlet 32, upper cooling fan 46；

Described upper lid 2 is organized into an insulated cavity 9 or passage 29 by enclosing cover 20 and bottom 101；

Or, described upper lid 2 is organized into an insulated cavity 9 or passage 29 by enclosing cover 20 and the first reflector 35；

Described upper lid 2 setting protective cover 10, upper heater 41, the first reflector 35, enclosing cover 20 from the bottom to top；

Or, described upper lid 2 setting upper heater 41, the first reflector 35, enclosing cover 20 from the bottom to top；

Or, described upper lid 2 setting bottom 101, upper heater 41, the first reflector 35, enclosing cover 20 from the bottom to top；

Or, described upper lid 2 setting upper heater 41, the first reflector 35, the second reflector 25, enclosing cover 20 from the bottom to top；The Setting air outlet 30 in setting passage 29 end between one reflector 35 and the second reflector 25；

Described first reflector 35 top or side or periphery setting air outlet 30, lower-temperature external air is along air outlet 30 by up to The lower flowing into three-dimensional heating chamber 55, lowers the temperature to the enclosing cover of upper lid 2 simultaneously, lower-temperature external air driven three-dimensional heating chamber 55 The mobile mixing from top to bottom of interior hot-air；

Described first reflector 35 is independently arranged or the first reflector 35 and bottom 101 are wholely set；

Described upper lid 2 one end are rotated with bodice 1 and are connected.

Described bodice 1 is made up of thermal insulation layer 91, lower heater 44, motor 8, base 101, or bodice 1 by thermal insulation layer 91, under Heater 44, motor 8, base 101, lower cooling fan 45 form, or bodice 1 is by thermal insulation layer 91, lower heater 44, motor 8, bottom Seat 101, lower cooling fan 45, air inlet 32 form；

Thermal insulation layer 91 arranges upward opening, and thermal insulation layer 91 bottom arranges lower heater 44, lower heater 44 inner side or periphery setting Motor 8 or motor 8 driving head, arrange gap between thermal insulation layer 91 bottom and lower heater 44, thermal insulation layer 91 bottom or side set Put lower cooling fan 45, lower cooling fan 45 is arranged in the cavity 90 between thermal insulation layer 91 and base 101；

The air inlet openings of lower cooling fan 45 are connected with outside insertion, and the inflatable mouth of lower cooling fan 45 is passed through with thermal insulation layer 91 opening Lead to and connect, outside air is blowed to lower heater 44 bottom or the second temperature controller surface, lower cooling fan by lower cooling fan 45 Cool exterior air is lowered the temperature to lower heater 44 bottom and is converted into warm warm air along thermal insulation layer 91 bottom and lower heater 44 by 45 Between gap enter in three-dimensional heating chamber 55, then through bodice 1 after mixing with the hot humid hot-air in three-dimensional heating chamber 55 The air-vent of the gap 31 and upper lid 2 between or upper lid 2 flows out outside main body 01；

Or, the air inlet openings of upper cooling fan 46 are connected with outside insertion, and the inflatable mouth of upper cooling fan 46 is heat-insulated with upper lid 2 Cavity 9 or passage 29 insertion connect, and outside air is blowed to upper heater 41 top or the first reflector by upper cooling fan 46 35 tops or the first temperature controller surface cooling, cool exterior air is lowered the temperature and is turned to the first reflector 35 top by upper cooling fan 46 The perforate changing warm warm air into along the peripheral air outlet 30 of the first reflector 35 or the first reflector 35 top enters three-dimensional heating chamber In 55, then through the gap 31 between bodice 1 and upper lid 2 or upper lid after mixing with the hot humid hot-air in three-dimensional heating chamber 55 2 air-vent flows out outside main body 01；

Outer low temperature air and the mixed temperature of heating chamber internal high temperature are at least not less than 160 degree to vertical by described cooling fan Constant temperature or to cooling heating relatively in three-dimensional heating chamber 55 in body heating chamber 55；

The low-temperature airflow at least some of described lower cooling fan 45 blows over temperature controller or temperature probe 43 surface cooling, or at least A part of low-temperature airflow is blown over lower heater 44 and is converted between warm wet inflow pot 3 outside and thermal insulation layer 91 inner side, enters Inside pot 3, flow out outside main body 01 along the gap 31 between upper lid and bodice or gap 31 in main body 01, by vapor plus Speed is discharged outside main body 01, accelerates the drying of food and Surface hardened layer, shortens the heat time heating time of food, keeps in pot 3 each Gap 31 condition of high temperature between food is consistent, reduces gap 31 temperature difference between food, improves the efficiency of bottom heater, Force the heat energy to bottom radiation loss during lower heater 44 heating to be converted into warm warm air and enter in pot 3, in pot 3 Food auxiliary heating, the caloric value realizing lower heater 44 is consistent with the caloric value of upper heater 41, or lower heater 44 Caloric value is more than the caloric value of upper heater 41.

Described lower cooling fan 45 downstream arranges the second temperature controller or temperature probe 403 or fuse；

Lower cooling fan 45 is blown to lower the temperature to the second temperature controller or temperature probe 403 and is extended the second temperature controller or temperature probe 403 The heating work time, or shorten the second temperature controller or the out-of-work power-off time of temperature probe 403, thus shortening total working Time；Or heater is blown with low-temperature airflow by the cold and hot exchange of heater frequently, reduce high-low temperature difference homogeneous heating.

Described passage 29 is arranged on the second temperature controller or the side of temperature probe 403, passage 29 inlet end and outside insertion Connect, the second temperature controller or temperature probe 403 are pointed in passage 29 outlet side, passage 29 is by blowing to the by outside Cryogenic air Two temperature controllers or temperature probe 403 are lowered the temperature；

Second temperature controller or temperature probe 403 or fuse are arranged on thermal insulation layer 91 or on heater.

The heat slow flow that lower heater 44 is lost by the low wind speed of described lower cooling fan 45；Simultaneously to bottom 101 Shell lowered the temperature；

Described lower cooling fan 45 is arranged on bottom or the side of lower heater 44, air-flow sluggish flow from the bottom to top, causes down Heater 44 keeps condition of high temperature heating uniformly, expands the area of pot 3 thermally equivalent, at least expands the uniform of pot 3 sidepiece The area being heated, or, at least expand the area of the thermally equivalent of pot 3 bottom, air-flow is along thermal insulation layer 91 and lower heater 44 Between gap flow up, enter pot 3 opening through pot 3 sidepiece, at least a part of gas is with moisture content along main body Gap 31 on 01 is flowed out.

Described upper cooling fan 46 or lower cooling fan 45 or passage 29 are closely arranged on temperature controller or temperature probe Side insertion connects cooling, or described upper cooling fan 46 or lower cooling fan 45 pass through air channel and temperature controller or temperature at a distance Control probe insertion connects cooling；

The wind speed of described upper cooling fan 46 or lower cooling fan 45 is at least below per hour 3 kilometers；Low wind speed accelerates heater Environment homogeneous heating to surrounding；

Described air-flow is extraneous air or at least main air-flow is extraneous air；

Described upper cooling fan 46 air channel is fixedly connected in main body 01；

Described passage 29 be independently arranged or passage 29 be combine；

Described upper cooling fan 46 or lower cooling fan 45 be separately positioned on lid 2 and greatly with it together with work, or upper cooling Fan 46 or lower cooling fan 45 are separately positioned on lid 2 and big autonomous working with it.

It is additionally provided with motor 8, pot 3 is connected with the output shaft of motor 8 in described bodice 1；

Described food Rolling device 11 is arranged in pot 3, and food Rolling device 11 and pot 3 relative rotary motion are to pot 3 Interior food is stirred overturning；

It is additionally provided with the support 16 for shelving food or meal tray in described pot 3；

Pot 3 periphery also includes the split type handle 15 for picking and placeing pot 3.

Setting food Rolling device 11 in described pot 3, pot 3 bottom arranges lower heater 44, the periphery of pot 3 or under Heater 44 bottom arranges thermal insulation layer 91, thermal insulation layer 91 bottom or lower heater 44 bottom setting temperature controller or temperature probe, temperature Control device or temperature probe bottom or the lower cooling fan 45 of downstream setting, lower cooling fan 45 bottom arranges bottom 101.

Described pot 3 and upper lid 2 surround the three-dimensional heating chamber 55 of opposing seal jointly, and upper lid 2 arranges the fall of outer circulation Warm air is fanned for constant temperature in three-dimensional heating chamber 55 or is heated to cooling relatively in three-dimensional heating chamber 55, or, upper lid 2 is arranged Auxiliary heat generating component 4, the heating fan blade 61 on auxiliary heat generating component 4 is arranged in three-dimensional heating chamber 55, and motor 8 is arranged on solid The outside of heating chamber 55；Heating air duct 5 is looped around lid 2 tops；Heating fan blade 61 on auxiliary heat generating component 4 is in pot 3 Food auxiliary heating, the caloric value realizing lower heater 44 is consistent with the caloric value of upper heater 41, or lower heater 44 Caloric value is more than the caloric value of upper heater 41；

Described upper heater 41 is in the same size with the heating power of lower heater 44, or, the heating power of lower heater 44 is big In the heating power of upper heater 41, or, the fever time of lower heater 44 is more than the fever time of upper heater 41；

The cooling fan of outer circulation is arranged on described upper lid 2, for constant temperature in three-dimensional heating chamber 55 or to three-dimensional heating chamber 55 The interior heating of cooling relatively is thermally formed three-dimensional heating chamber 55 with bodice 1 bottom conductive；Or, described upper lid 2 arranges outer circulation Cooling fan, for constant temperature in three-dimensional heating chamber 55 or to cooling heating and bodice 1 bottom relatively in three-dimensional heating chamber 55 The cooling fan of setting outer circulation and bottom conductive are thermally formed three-dimensional heating chamber 55, and cooling fan is used for three-dimensional heating chamber 55 Interior constant temperature or to cooling heating relatively in three-dimensional heating chamber 55；

Or, on described upper lid 2, the interior circulation heating fan blade 61 of setting auxiliary heat generating component 4, arranges outer circulation with bodice 1 bottom Cooling fan and bottom conductive be thermally formed three-dimensional heating chamber 55, cooling fan is used for constant temperature in three-dimensional heating chamber 55 or give Cooling heating relatively in three-dimensional heating chamber 55；

Or, on described upper lid 2, the interior circulation heating fan blade 61 of setting auxiliary heat generating component 4, heats shape with bodice 1 bottom conductive Become three-dimensional heating chamber 55.

The air inlet 32 of the heating air duct 5 on described auxiliary heat generating component 4 is opened in the middle part of protective cover 10, and air outlet 30 is opened It is located at outside protective cover 10, be provided with, in upper lid 2, the air that air inlet 32 can be entered and be evacuated to the heating wind that air outlet 30 is discharged Machine 6, heating blower 6 is located at upper auxiliary heat generating component 4 top；Or, the air inlet 32 of heating air duct 5 is arranged on pot 3 solid The medial wall of heating chamber 55, air outlet 30 is arranged between pot cover 4 and protective cover 10, and being provided with pot 3 can be air inlet 32 The air entering is evacuated to the heating blower 6 of air outlet 30 discharge, and heating blower 6 is located at outside three-dimensional heating chamber 55；

Described upper heater 41 or lower heater 44 are halide torch, carbon pipe, quartz ampoule, metal tube or heating wire, lower main heating Assembly 7 is metal heat-generating pipe.

Described upper heater 41 is arranged on the lower inside of reflector, and cooling fan arranges the top of reflector, wind of lowering the temperature Fan directly or indirectly drops to reflector, cooling fan one end and extraneous air insertion, and the other end passes through reflector and oven Inner chamber insertion, outside cooling air-flow is absorbed and blows to reflector side or heater side, at least separates a part of rising hot-fluid Heat radiation to shell.

Outside Cryogenic air is flowed through reflector or heater by described cooling fan, and conversion or warm warm air are transported downwards Dynamic, drive or force high-temperature heat flux to flow down to foodstuff surface, foodstuff surface is sintered, by the aqueous vapor edge of foodstuff surface Gap 31 between Shang Gai and lower main body 01 is flowed out, and accelerates the warm temperature of main body 01 inner chamber, shortens the time of heat foods, will rise The hot-fluid of discharge forces and is back to main body 01 inner chamber, upper case of simultaneously lowering the temperature, and plays anti-scald effect.

Setting the first reflector 35 and the double-deck reflector of the second reflector 25 is covered on described, or, only setting single-layer back Penetrate cover.

Described cooling fan or cooling ducting outlet are arranged on reflector top or sidepiece.

The cooling air-flow of described cooling fan is at least a part of to flow outside Dao main body 01 in along reflection cover outer wall or inwall Chamber.

Described cooling fan closely or distantly located cooling air inlet on or side.

Described cooling fan is arranged in lid or lower main body 01.

Described cooling air channel is arranged on lid inside, and air inlet 32 is located at and above covers.

Described cooling air channel is arranged between Shang Gai and lower main body 01, and lower main body 01 and upper lid are traversed in described cooling air channel Between, air inlet 32 is arranged in lower main body 01, main body 01 bottom or bottom under position.

Cover setting temperature controller or temperature probe on described, positioned at the downstream of cooling fan, cooling fan to temperature controller or Temperature probe cooling extends the conduction time of temperature controller or temperature probe, or shortens the power-off time of temperature controller or temperature probe, Thus improving work efficiency, shorten heating work cycle of food or time, it is long for heat time heating time to reach relatively-high temperature, draining part Hurry up, cooling fan is anti-scald to the outside cooling of bodice to the enclosing cover anti-scald or cooling fan of cooling of upper lid, accelerates inner air and outer air Exchange, reduce oil smoke, shorten the overall work time.

Described cooling fan is Low speed electric motor 8, and per minute at least below 3000 turns, wind speed is at least low 3 kilometers per hour, Low wind speed is not result in that the temperature of heating chamber is less than 160 degree.

Upper cooling fan 46 be arranged on lid 2 on, upper cooling fan 46 by outside air suction, by insulated cavity 9 Or outside air is blowed to upper heater 41 top or the first reflector 35 top or the first temperature controller surface cooling by passage 29, Upper heater 41 top or the surface rising hot-fluid of the first reflector 35 top or the first temperature controller is forced from top to bottom to flow, will Cool exterior air the first reflector 35 top is lowered the temperature and be converted into warm warm air along the peripheral air outlet 30 of the first reflector 35 or Between the perforate on the first reflector 35 top or the first reflector 35 and the second reflector 25, setting passage 29 end is arranged out Air port 30；Enter in three-dimensional heating chamber 55, then after mixing with the hot humid hot-air in three-dimensional heating chamber 55 through bodice 1 with upper The air-vent of the gap 31 between lid 2 or upper lid 2 flows out outside main body 01；The flowing of outside cold air is by the first reflector 35 Between top and enclosing cover, isolation reaches the anti-scald effect of enclosing cover cooling；

Or, inside lower cooling fan 45 bodice, by being arranged on inside upper lid 2, outside air is taken out by upper cooling fan 46 Enter, be connected with the insulated cavity 9 above covering or passage 29 insertion by the cavity 90 between thermal insulation layer 91 and base 101, will be outer The air in portion blows to upper heater 41 top or the first reflector 35 top or the first temperature controller surface cooling, forces upper heater The surface of 41 tops or the first reflector 35 top or the first temperature controller rises hot-fluid and from top to bottom flows, by cool exterior air pair First reflector 35 top lowers the temperature and is converted into warm warm air along the peripheral air outlet 30 of the first reflector 35 or the first reflector 35 Setting air outlet 30 in setting passage 29 end between the perforate on top or the first reflector 35 and the second reflector 25；Enter vertical In body heating chamber 55, then through the gap between bodice 1 and upper lid 2 after mixing with the hot humid hot-air in three-dimensional heating chamber 55 The air-vent of 31 or upper lids 2 flows out outside main body 01；The flowing of outside cold air by the first reflector 35 top and enclosing cover it Between isolation reach the enclosing cover anti-scald effect of cooling；

Or, the air inlet openings of lower cooling fan 45 are connected with outside insertion, the inflatable mouth of lower cooling fan 45 and thermal insulation layer 91 Opening insertion connects, and outside air is blowed to lower heater 44 bottom or the second temperature controller surface by lower cooling fan 45, declines Warm air fan 45 cool exterior air is lowered the temperature to lower heater 44 bottom and be converted into warm warm air along lower heater 44 bottom with every Gap between thermosphere 91 enters in three-dimensional heating chamber 55, then warp after mixing with the hot humid hot-air in three-dimensional heating chamber 55 The air-vent of the gap 31 between bodice 1 and upper lid 2 or upper lid 2 flows out outside main body 01；Under the flowing of outside cold air is incited somebody to action Between heater 44 bottom and thermal insulation layer 91, isolation reaches the anti-scald effect of bottom cooling；

Upper cooling fan 46 is arranged on lid 2, and upper cooling fan 46, by outside air suction, is pushed up by the first reflector 35 Portion or the first temperature controller surface cooling, the air outlet 30 along the periphery of the first reflector 35 from top to bottom flows, described air outlet 30 at least one setting, air outlet 30 air-out forms an air curtain, and the heat that the upper heater 41 of inner side is produced is from top to bottom Drive flows to foodstuff surface heating, or, air outlet 30 air-out is combined into an air curtain, and the upper heater 41 of inner side is produced Heat from top to bottom drives and flows to foodstuff surface heating；

Or, the air inlet openings of lower cooling fan 45 are connected with outside insertion, and cool exterior air is added by lower cooling fan 45 to lower Hot device 44 bottom lowers the temperature and is converted into warm warm air along the shape from the bottom to top of the gap between lower heater 44 bottom and thermal insulation layer 91 An air curtain is become to enter in three-dimensional heating chamber 55, by between the high-temperature hot air in three-dimensional heating chamber 55 and bodice 1 and upper lid 2 Gap 31 isolates, it is to avoid high-temperature hot air quickly outflows, and the increase time of staying in three-dimensional heating chamber 55 for the high-temperature hot air adds Hot food provides the purpose of efficient energy-saving.

The invention is not limited in above-described embodiment, under conditions of without departing from marrow of the present invention, those skilled in the art Any variation done, all belongs to protection scope of the present invention.

Claims (12)

1. the energy-efficient roaster of energy, main body (01) includes bodice (1), heater, pot (3), food Rolling device (11), air inlet Hole (32), cooling fan, described heater is at least a lower heater (44), it is characterized in that bodice (1) is used for accommodating pot (3), food Rolling device (11), lower heater (44), described bodice (1) provides the thermal source of conduction heating to food bottom；

Described cooling fan one be used for three-dimensional heating chamber (55) interior constant temperature or in three-dimensional heating chamber (55) relatively cooling plus Heat, described cooling fan is arranged on the outside of three-dimensional heating chamber (55)；

Described cooling fan one end is connected with extraneous air insertion, the other end pass through pot (3) lateral part and thermal insulation layer (91) it Between space with heating intracavity insertion be connected, outer low temperature air along lower heater (44) flows, is passed through by cooling fan Pot (3) lateral part rises to the opening of pot (3), and at least a portion air-flow is added to three-dimensional after being mixed with heating chamber internal high temperature The interior constant temperature of hot chamber (55) or to cooling heating relatively in three-dimensional heating chamber (55)；

Described cooling fan air-blowing is to a part of air-flow of major general and heating intracavity vapor along the seam on gas outlet or main body (01) Gap (31) is discharged；

Described cooling fan is at least provided with one lower cooling fan (45) of one-tenth；

One pot (3) is used for accommodating food and to the heating of food bottom conductive；

One food Rolling device (11) is used for turning food, causes food to be heated evenly three-dimensional heating；

One temperature controller or temperature probe are used for limiting the heating-up temperature of heating intracavity.

2. the energy-efficient roaster of energy according to claim 1, is characterized in that described cooling fan air-blowing along outside pot (3) The opening that portion rises to pot (3) forms an air curtain (404) from the bottom to top；Air curtain (404) encloses scratches on pot (3) lateral part Rise, air curtain is tubulose or strip or arc rises；

Outer low temperature air and the mixed temperature of heating chamber internal high temperature are at least not less than 160 degree by described cooling fan；

Described temperature controller or at least one second temperature controller of temperature probe or temperature probe (403) are arranged on thermal insulation layer (91) bottom Or lower heater (44) bottom.

3. the energy-efficient roaster of energy according to claim 1, it is characterized in that described bodice (1) by thermal insulation layer (91), lower plus Hot device (44), motor (8), base (101) composition, or bodice (1) is by thermal insulation layer (91), lower heater (44), motor (8), bottom Seat (101), lower cooling fan (45) composition, or bodice (1) is by thermal insulation layer (91), lower heater (44), motor (8), base (101), lower cooling fan (45), air inlet (32) composition；

Thermal insulation layer (91) arrange upward opening, thermal insulation layer (91) bottom setting lower heater (44), inside lower heater (44) or Periphery setting motor (8) or motor (8) driving head, arrange gap between lower heater (44) bottom and thermal insulation layer (91), heat-insulated Layer (91) bottom or the lower cooling fan (45) of side setting, lower cooling fan (45) is arranged on thermal insulation layer (91) and base (101) Between cavity (90) in；

The air inlet openings of lower cooling fan (45) are connected with outside insertion, the inflatable mouth of lower cooling fan (45) and thermal insulation layer (91) Opening insertion connects, and outside air is blowed to lower heater (44) bottom or the second temperature controller surface by lower cooling fan (45), Cool exterior air is lowered the temperature to lower heater (44) bottom and is converted into warm warm air along lower heater by lower cooling fan (45) (44) gap between bottom and thermal insulation layer (91) enters in three-dimensional heating chamber (55), then with three-dimensional heating chamber (55) in high temperature After moist hot air mixing, the air-vent through the gap (31) between bodice (1) and upper lid (2) or upper lid (2) flows out main body (01) Outside.

4. the energy-efficient roaster of energy according to claim 1, is characterized in that described lower cooling fan (45) downstream setting the Two temperature controllers or temperature probe (403) or fuse；

Lower cooling fan (45) is blown to lower the temperature to the second temperature controller or temperature probe (403) and is extended the second temperature controller or temperature probe (403) the heating work time, or shorten the second temperature controller or the out-of-work power-off time of temperature probe (403), thus contracting Short net cycle time；Or heater is blown with low-temperature airflow by the cold and hot exchange of heater frequently, reduce high-low temperature difference homogeneous heating.

5. the energy-efficient roaster of energy according to claim 4, is characterized in that described passage (29) is arranged on the second temperature controller Or the side of temperature probe (403), passage (29) inlet end is connected with outside insertion, sensing the second temperature control of passage (29) outlet side Device or temperature probe (403), passage (29) is by blowing to the second temperature controller or temperature probe (403) fall by outside Cryogenic air Temperature；

Second temperature controller or temperature probe (403) or fuse are arranged on thermal insulation layer (91) above or on heater.

6. the energy-efficient roaster of energy according to claim 5, is characterized in that the low wind speed of described lower cooling fan (45) will The heat slow flow that lower heater (44) is lost；The shell of bottom (101) is lowered the temperature simultaneously；

Described lower cooling fan (45) is arranged on bottom or the side of lower heater (44), air-flow sluggish flow from the bottom to top, causes Make lower heater (44) keep condition of high temperature heating uniformly, expand the area of pot (3) thermally equivalent, at least expand pot (3) The area of the thermally equivalent of sidepiece, or, at least expand the area of the thermally equivalent of pot (3) bottom, air-flow is along thermal insulation layer (91) gap and lower heater (44) between flows up, through pot (3) sidepiece enter pot (3) opening, at least one The gas of part flows out along the gap (31) in main body (01) with moisture content.

7. the energy-efficient roaster of energy according to claim 6, is characterized in that described lower cooling fan (45) or passage (29) Closely it is arranged on temperature controller or the side insertion of temperature probe connects cooling, or described lower cooling fan (45) leads at a distance Cross air channel and be connected cooling with temperature controller or temperature probe insertion；

The wind speed of described lower cooling fan (45) is at least below per hour three kilometers；Low wind speed accelerates the environment to surrounding for the heater Homogeneous heating；

Described air-flow is extraneous air or at least main air-flow is extraneous air；

Described lower cooling fan (45) air channel is fixedly connected in main body (01)；

Described passage (29) be independently arranged or passage (29) be combine；

Described lower cooling fan (45) be separately positioned on lid (2) with big with together with work, or lower cooling fan (45) point It is not arranged on lid (2) and big autonomous working with it.

8. the energy-efficient roaster of energy according to claim 3, is characterized in that being additionally provided with motor (8) in described bodice (1), Pot (3) is connected with the output shaft of motor (8)；

Described food Rolling device (11) is arranged in pot (3), food Rolling device (11) and pot (3) relative rotary motion Food in pot (3) is stirred overturn；

It is additionally provided with the support (16) for shelving food or meal tray in described pot (3)；

Pot (3) periphery also includes the split type handle (15) for picking and placeing pot (3)；

Setting food Rolling device (11) in described pot (3), pot (3) bottom setting lower heater (44), outside pot (3) Enclose or lower heater (44) bottom setting thermal insulation layer (91), thermal insulation layer (91) bottom or lower heater (44) bottom arrange temperature controller Or temperature probe, temperature controller or temperature probe bottom or the lower cooling fan (45) of downstream setting, lower cooling fan (45) bottom sets Bottom set lid (101).

9. the energy-efficient roaster of energy according to claim 8, is characterized in that described pot (3) is surrounded jointly with upper lid (2) The three-dimensional heating chamber (55) of opposing seal, the upper cooling fan arranging outer circulation of upper lid (2) is used in three-dimensional heating chamber (55) Constant temperature or to cooling heating relatively in three-dimensional heating chamber (55), or, upper setting auxiliary heat generating component (4) of upper lid (2), auxiliary is sent out Heating fan blade (61) on hot assembly (4) is arranged in three-dimensional heating chamber (55), and motor (8) is arranged on three-dimensional heating chamber (55) Outside；Heating air duct (5) is looped around lid (2) top；Heating fan blade (61) in auxiliary heat generating component (4) is in pot (3) Food auxiliary heating, the caloric value realizing lower heater (44) is consistent with the caloric value of upper heater (41), or lower heater (44) caloric value is more than the caloric value of upper heater (41)；

Described upper heater (41) is in the same size with the heating power of lower heater (44), or, the heating of lower heater (44) Power is more than the heating power of upper heater (41), or, the fever time of lower heater (44) is more than upper heater (41) Fever time.

10. the energy-efficient roaster of energy according to claim 9, is characterized in that the heating on described auxiliary heat generating component (4) The air inlet (32) in air channel (5) is opened in the middle part of protective cover (10), and air outlet (30) is opened in protective cover (10) outside, upper lid (2) it is provided with the air that air inlet (32) can be entered in and be evacuated to the heating blower (6) that air outlet (30) is discharged, heating blower (6) it is located at upper auxiliary heat generating component (4) top；Or, the air inlet (32) of heating air duct (5) is arranged on pot (3) solid and adds The medial wall of hot chamber (55), air outlet (30) is arranged between pot cover (4) and protective cover (10), and being provided with pot (3) can be The air that air inlet (32) enters is evacuated to the heating blower (6) that air outlet (30) is discharged, and heating blower (6) is located at three-dimensional heating chamber (55) outside；

Described upper heater (41) or lower heater (44) are halide torch, carbon pipe, quartz ampoule, metal tube or heating wire, lower master Heat generating component (7) is metal heat-generating pipe.

A kind of 11. heating according to the energy-efficient roaster of the described energy of any one of claim 1 to 10, cooling, the side of aerofluxuss Method is it is characterised in that comprise the steps:

Inside a, lower cooling fan (45) bodice, lower cooling fan by outside air suction, by thermal insulation layer (91) and base (101) cavity (90) between is connected with the insulated cavity (9) above covering or passage (29) insertion, and outside air is blowed to Heater (41) top or the first reflector (35) top or the first temperature controller surface cooling, force upper heater (41) top or The surface of the first reflector (35) top or the first temperature controller rises hot-fluid and from top to bottom flows, and cool exterior air is anti-to first Penetrate cover (35) top to lower the temperature and be converted into warm warm air along the first reflector (35) periphery air outlet (30) or the first reflector (35) setting passage (29) end setting air-out between the perforate on top or the first reflector (35) and the second reflector (25) Mouth (30)；Enter in three-dimensional heating chamber (55), then through bodice after mixing with the hot humid hot-air in three-dimensional heating chamber (55) (1) air-vent of the gap (31) and upper lid (2) between or upper lid (2) flows out main body (01) outside；The stream of outside cold air Move between top and enclosing cover, to isolate the first reflector (35) and reach the anti-scald effect of enclosing cover cooling；

Or, the air inlet openings of lower cooling fan (45) are connected with outside insertion, the inflatable mouth of lower cooling fan (45) with heat-insulated Layer (91) opening insertion connects, and outside air is blowed to lower heater (44) bottom or the second temperature controller by lower cooling fan (45) Surface, cool exterior air is lowered the temperature to lower heater (44) bottom and is converted into warm warm air along lower heating by lower cooling fan (45) Gap between device (44) bottom and thermal insulation layer (91) enters in three-dimensional heating chamber (55), then with three-dimensional heating chamber (55) in height After warm moist hot air mixing, the air-vent through the gap (31) between bodice (1) and upper lid (2) or upper lid (2) flows out main body (01) outside；Isolation between lower heater (44) bottom and thermal insulation layer (91) is reached bottom cooling by the flowing of outside cold air Anti-scald effect.

A kind of 12. methods of the heating according to the energy-efficient roaster of the described energy of any one of claim 1 to 10, its feature exists In comprising the steps:

A, the air inlet openings of lower cooling fan (45) are connected with outside insertion, and cool exterior air is added by lower cooling fan (45) to lower Hot device (44) bottom lower the temperature and be converted into warm warm air along the gap between lower heater (44) bottom and thermal insulation layer (91) by under Supreme one air curtain (404) of formation enters in three-dimensional heating chamber (55), by the high-temperature hot air in three-dimensional heating chamber (55) and greatly Gap (31) isolation between body (1) and upper lid (2), it is to avoid high-temperature hot air quickly outflows, increases high-temperature hot air in solid The time of staying in heating chamber (55) heats food provides the purpose of efficient energy-saving.