CN207125647U - Can energy-efficient roaster - Google Patents
Can energy-efficient roaster Download PDFInfo
- Publication number
- CN207125647U CN207125647U CN201621227537.2U CN201621227537U CN207125647U CN 207125647 U CN207125647 U CN 207125647U CN 201621227537 U CN201621227537 U CN 201621227537U CN 207125647 U CN207125647 U CN 207125647U
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- Prior art keywords
- air
- cooling fan
- reflector
- heating
- heater
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J37/00—Baking; Roasting; Grilling; Frying
- A47J37/06—Roasters; Grills; Sandwich grills
- A47J37/0623—Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J37/00—Baking; Roasting; Grilling; Frying
- A47J37/06—Roasters; Grills; Sandwich grills
- A47J37/0623—Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity
- A47J37/0629—Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity with electric heating elements
- A47J37/0641—Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity with electric heating elements with forced air circulation, e.g. air fryers
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J37/00—Baking; Roasting; Grilling; Frying
- A47J37/06—Roasters; Grills; Sandwich grills
- A47J37/0623—Small-size cooking ovens, i.e. defining an at least partially closed cooking cavity
- A47J37/0664—Accessories
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- Engineering & Computer Science (AREA)
- Food Science & Technology (AREA)
- Baking, Grill, Roasting (AREA)
Abstract
Can energy-efficient roaster, main body includes bodice, upper lid, heater, pot, food Rolling device, air admission hole, cooling fan, and the heater is upper heater and lower heater, it is characterized in that bodice is for accommodating pot(3), food Rolling device(11), lower heater(44), the bodice(1)The thermal source of conduction heating is provided to food bottom;The upper lid(2)The thermal source of heat radiation or illumination heating is provided to food upper surface;The upper lid(2)With bodice(1)Cover to form a top as heat radiation or illumination heating, the three-dimensional heating chamber of bottom offer conduction heating(55);Cooling fan is used to give three-dimensional heating chamber(55)Interior constant temperature gives three-dimensional heating chamber(55)Interior relative cooling heating, the cooling fan are arranged on three-dimensional heating chamber(55)Outside;One food Rolling device(11)For turning food, food is caused to be heated evenly three-dimensional heating;The utility model have culinary art effect it is good, it is easy assembly and disassembly, it is easy to clean, applied widely the characteristics of.
Description
Technical field
The utility model is related to can energy-efficient roaster.
Background technology
Traditional frying pan, which generally comprises, can provide lid and heating bodice in heating.But with constantly carrying for people's living standard
Height, single toasting performance are difficult to meet the needs of market development, and for this situation, some manufacturers have made a little improvement, as in
The U of state Patent document number CN 202341751 disclosed 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, pot is interior to be provided with embedded pan courage
Cooking cavity, turning device is arranged in pot courage, and its pot cover corresponds to and is provided with auxiliary heat generating component at the top of pot courage, and it produces heat
Stream and heat radiation at the top of food with sidepiece to heating;The bottom that pot corresponds to pot courage is provided with lower main heat generating component, and it is to food
Bottom conductive heats;The heating air duct of the circulation in pot courage is provided with pot cover or pot.Pot surrounds jointly with pot cover
The cooking cavity of opposing seal, the protective cover that can block auxiliary heat generating component is provided with pot cover, protects shroud rim and cooking cavity
It is relatively closed;Heating air duct is looped around at the top of pot cover, or is looped around the outside of pot cooking cavity.Interior circulation of the present utility model
Heating air duct, make to produce convection current in pot courage, to food three-dimensional heating, the heating surface area of food is maximized, and is heated evenly,
Thoroughly solves the problems, such as food uneven heating.
Its shortcoming is that power is big, and for body fuselage temperature height, it is necessary to which high-temperature material price is expensive, body outward appearance accessory aging is fast,
Cleaning is inconvenient, and production cost is higher, so needing to improve.
The content of the invention
The purpose of this utility model aim to provide a kind of simple and reasonable, operation flexibly, culinary art effect is good, easy assembly and disassembly,
It is easy to clean, applied widely can energy-efficient roaster, to overcome weak point of the prior art.
By this purpose design can energy-efficient roaster, main body include bodice, upper lid, heater, pot, air admission hole, on
Cooling fan, it is characterized in that a upper lid is used to fix upper heater, reflector, upper cooling fan, the upper heating of the upper lid
Device provides the thermal source of heat radiation or illumination heating to food upper surface;
The upper cooling fan is arranged on the back of reflector, positioned at reflector top or side;
The reflector top or side or periphery set air outlet, and upper cooling fan is by the Cryogenic air of outside along air-out
Mouth from top to bottom flows, and so as to drive the heat of upper heater to sink to flowing, reduces the heat of heat accumulation chamber bottom, at least will
The surface that the heat of a part of heat accumulation chamber from top to bottom flow back into food is heated again, while to an enclosing cover part for upper lid
Cooled.
The reflector sets heat accumulation chamber, heat at least provided with first reflector, the bottom of the first reflector
Accumulation chamber bottom sets upper heater;Heat accumulation chamber is independently arranged or combination settings are in upper lid bottom;The heat accumulation chamber
Main heating opening or perforate are downward, and the conduction heat on the heat accumulation chamber top is by the low-temperature airflow of upper cooling fan by up to
Lower isolation, at least one of underlying low temperature air-flow mixed with the conduction heat on heat accumulation chamber top along air outlet outflow every
Hot cavity or cooling passage;
The air of outside is pumped into by the upper cooling fan, passes through reflector top or the first temperature controller or temperature probe table
Face cools, and is from top to bottom flowed along the peripheral air outlet of reflector, at least one setting of air outlet, air outlet shape
Into an air curtain, heat caused by the upper heater of inner side is from top to bottom driven and flows to foodstuff surface heating, or, air outlet
Air-out is combined into an air curtain, and heat caused by the upper heater of inner side is from top to bottom driven and flows to foodstuff surface heating.
The heat accumulation chamber is downwardly extending downwardly open cavity by reflector periphery;Or heat accumulation chamber by
Reflector combines to form downwardly open or hole cavity-formed with protective cover;Or heat accumulation chamber by reflector and enclosing cover or
Bottom combines to form downwardly open or hole cavity-formed.
Further, the air of outside is pumped into by the upper cooling fan, at the top of the first reflector or the second reflector
Or first temperature controller or temperature probe surface cooling, along the peripheral air outlet of the first reflector or the second reflector from top to bottom
Flowing, at least one setting of air outlet, air outlet forms an air curtain, by heat caused by the upper heater of inner side
From top to bottom drive and flow to foodstuff surface heating, or, air outlet is combined into an air curtain, and the upper heater of inner side is produced
Raw heat, which from top to bottom drives, flows to foodstuff surface heating.
The heat accumulation chamber is downwardly extending downwardly open cavity by the first reflector or the second reflector periphery;Or
Person, heat accumulation chamber are combined with protective cover by the first reflector or the second reflector and form downwardly open or hole cavity-formed;Or
Or heat accumulation chamber is combined that to form downwardly open or perforate empty by the first reflector or the second reflector with enclosing cover or bottom
Chamber.The quantity of reflector can be adjusted according to the size in space in upper lid space;
The 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 composition, or bodice are made up of thermal insulation layer, lower heater, motor, base, lower cooling fan, air admission hole;
Thermal insulation layer sets upward opening, and thermal insulation layer bottom sets lower heater, and lower heater inner side or periphery set motor
Or motor driving head, gap is set between thermal insulation layer bottom and lower heater, thermal insulation layer bottom or side set lower cooling fan,
Lower cooling fan is arranged in the cavity between thermal insulation layer and base;
The air inlet openings of lower cooling fan and outside through connection, inflatable mouth and the thermal insulation layer opening of lower cooling fan penetrate
The air of outside is blowed to lower heater bottom or the second temperature controller surface by connection, lower cooling fan, and lower cooling fan is by outside
Cold air cools to lower heater bottom and is converted into warm warm air to be entered along the gap between thermal insulation layer bottom and lower heater
Three-dimensional heating intracavitary, then after being mixed with the hot humid hot-air of three-dimensional heating intracavitary through the gap between bodice and upper lid or on
The air-vent outflow body exterior of lid;
Or the air inlet openings of upper cooling fan and outside through connection, the inflatable mouth of upper cooling fan and upper lid are heat-insulated
Cavity or cooling passage through connection, upper cooling fan blow to the air of outside at the top of upper heater or at the top of the first reflector
Or the first temperature controller surface cooling, upper cooling fan is by cool exterior air to cooling and being converted into warm wet at the top of the first reflector
Stream enters three-dimensional heating intracavitary along the perforate on the first reflector periphery air outlet or the first reflector top, then with three-dimensional heating chamber
After interior hot humid hot-air mixing body exterior is flowed out through the air-vent of the gap between bodice and upper lid or upper lid;
The cooling fan at least gives outer low temperature air and the mixed temperature of heating chamber internal high temperature not less than degree
Three-dimensional heating intracavitary constant temperature gives three-dimensional heating intracavitary the relative heating that cools.
Further, the low-temperature airflow at least some of the lower cooling fan blows over the second temperature controller or temperature probe surface
Cooling, or at least a part of low-temperature airflow are blown over lower heater and are converted into outside warm wet inflow pot and thermal insulation layer inner side
Between, into pot nside, body exterior is flowed out along the gap between upper lid and bodice or the gap in main body, vapor is accelerated
Discharge body exterior, accelerate drying and the Surface hardened layer of food, shorten the heat time of food, keep in pot each food it
Between the gap condition of high temperature it is consistent, reduce food between aperture temp it is poor, improve the efficiency of bottom heater, force lower heating
The heat energy to bottom radiation loss when device heats is converted into warm warm air and entered in pot, and the food auxiliary in pot is added
Heat, realize that the caloric value of lower heater is consistent with the caloric value of upper heater, or the caloric value of lower heater is more than upper heater
Caloric value.
The upper cooling fan downstream sets temperature controller or temperature probe or fuse;Or lower cooling fan downstream sets the
Two temperature controllers or temperature probe or fuse;
Upper cooling fan or lower cooling fan blow to cool to temperature controller or temperature probe extends temperature controller or temperature probe
The heating work time, or shorten the power-off time that temperature controller or temperature probe are stopped, so as to shorten net cycle time;Or
Blow heater low-temperature airflow and exchange frequent, reduction high-low temperature difference homogeneous heating by heater is cold and hot.
The upper cooling fan or cooling passage are arranged on the side of temperature controller or temperature probe, upper cooling fan or cooling
Temperature controller or temperature probe, upper drop are pointed in channel inlet end and outside through connection, upper cooling fan or cooling passage outlet side
Warm air is fanned or cooling passage by the Cryogenic air of outside by blowing to temperature controller or temperature probe cooling;
Temperature controller or temperature probe or fuse are arranged on thermal insulation layer or on heater;
The heat slow flow that the low wind speed of the upper cooling fan or lower cooling fan loses lower heater;It is simultaneously right
The shell of bottom is cooled;
The lower cooling fan is arranged on the bottom or side of lower heater, and air-flow slowly flows from the bottom to top, under causing
Heater keeps condition of high temperature heating uniform, expands the area of pot thermally equivalent, at least expands the thermally equivalent of pot sidepiece
Area, 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
Flow up, enter pot opening by pot sidepiece, at least a part of gas flows out with moisture along the gap in main body.
The upper cooling fan or lower cooling fan or cooling passage are closely arranged on the one of temperature controller or temperature probe
Side through connection cooling, or the upper cooling fan or lower cooling fan pass through air channel and temperature controller or temperature probe at a distance
Through connection cools;
The wind speed of the upper cooling fan or lower cooling fan is at least below two kilometers per hour;Low wind speed accelerates heater
To the environment homogeneous heating of surrounding;
The air-flow is extraneous air or at least main air-flow is extraneous air;
The upper cooling fan air channel is fixedly connected in main body;
The cooling passage is to combine for the passage that is independently arranged or cools;
The upper cooling fan or lower cooling fan are separately positioned on Shang Gai and worked together with it greatly, or upper cooling wind
Fan or lower cooling fan are separately positioned on Shang Gai and big autonomous working with it.
Motor is additionally provided with the bodice, pot connects with the output shaft of motor;
The food Rolling device is arranged in pot, and food Rolling device is with pot relative rotary motion in pot
Food is stirred upset;
The support for shelving food or meal tray is additionally provided with the pot;
Pot periphery also includes being used for the split type handle for picking and placeing pot;
The cooling fan is at least provided with one;The upper lid is by enclosing cover, bottom, upper heater, the first reflector, protection
Cover, air admission hole, Transparent Parts composition;
Or the upper lid is by enclosing cover, bottom, upper heater, the first reflector, protective cover, air admission hole, upper cooling fan
Composition;
Or the upper lid is made up of enclosing cover, bottom, upper heater, air admission hole, upper cooling fan;
The upper lid is organized into an insulated cavity or cooling passage by enclosing cover and bottom;
Or the upper lid is organized into an insulated cavity or cooling passage by enclosing cover and the first reflector;
The upper lid sets protective cover, upper heater, the first reflector, enclosing cover from the bottom to top;
Or the upper lid sets upper heater, the first reflector, enclosing cover from the bottom to top;
Or the upper lid sets bottom, upper heater, the first reflector, enclosing cover from the bottom to top;
Or the upper lid sets upper heater, the first reflector, the second reflector, enclosing cover from the bottom to top;First reflection
Set cooling channel end that air outlet is set between cover and the second reflector;
The first reflector top or side or periphery set air outlet, lower-temperature external air along air outlet from top to bottom
Flowed to three-dimensional heating intracavitary, while the enclosing cover of upper lid is cooled, the heat of lower-temperature external air driven three-dimensional heating intracavitary
Air mobile mixing from top to bottom;
First reflector is independently arranged or the first reflector and bottom are wholely set;
Described upper lid one end is rotatablely connected with bodice.
The pot surrounds the three-dimensional heating chamber of opposing seal with upper lid jointly, and the cooling fan of outer circulation is set on upper lid
For to three-dimensional heating intracavitary constant temperature or giving three-dimensional heating intracavitary the relative heating that cools, or, set on upper lid and aid in heating group
Part, the heating fan blade on heat generating component is aided in be arranged on three-dimensional heating intracavitary, motor is arranged on the outside of three-dimensional heating chamber;Heating
Air channel is looped around tops;Aid in the heating fan blade on heat generating component to aid in heating to the food in pot, realize lower heat
The caloric value of device is consistent with the caloric value of upper heater, or lower heater caloric value be more than upper heater caloric value;
The upper cooling fan is arranged on the outside of three-dimensional heating chamber;
Upper cooling fan one end and extraneous air through connection, the other end and through connection in heating chamber, upper cooling fan
Dropped after outer low temperature air and heating chamber internal high temperature are mixed to three-dimensional heating intracavitary constant temperature or to three-dimensional heating intracavitary is relative
Temperature heating;The cooling fan produces air-flow and discharges vapor in heating chamber along the gap on gas outlet or main body.
Further, the upper heater and the heating power of lower heater are in the same size, or, the heating work(of lower heater
Rate is more than the heating power of upper heater, or, the fever time of lower heater is more than the fever time of upper heater;
The cooling fan of outer circulation is set on the upper lid, for three-dimensional heating intracavitary constant temperature or giving three-dimensional heating intracavitary
Relative cooling heating is thermally formed three-dimensional heating chamber with bodice bottom conductive;Or the cooling of outer circulation is set on the upper lid
Fan, for setting outer circulation with bodice bottom to three-dimensional heating intracavitary constant temperature or to the relative cooling heating of three-dimensional heating intracavitary
Cooling fan and bottom conductive are thermally formed three-dimensional heating chamber, and cooling fan is used to add to three-dimensional heating intracavitary constant temperature or to solid
The relative heating that cools of hot intracavitary;
Or the interior circulating-heating fan blade of auxiliary heat generating component is set on the upper lid, outer circulation is set with bodice bottom
Cooling fan and bottom conductive be thermally formed three-dimensional heating chamber, cooling fan is used for three-dimensional heating intracavitary constant temperature or to solid
Relative cooling heating in heating chamber;
Or the interior circulating-heating fan blade of auxiliary heat generating component is set on the upper lid, heat shape with bodice bottom conductive
Into three-dimensional heating chamber.
The air admission hole of heating air duct on the auxiliary heat generating component is opened in the middle part of protective cover, and air outlet is opened in protection
Cover is outside, and the heating blower that the air that air admission hole enters can be evacuated to air outlet discharge is provided with upper lid, and heating blower is located at
Aid in heat generating component top;Or the air admission hole of heating air duct is arranged on the madial wall of pot three-dimensional heating chamber, air outlet is set
The air that air admission hole enters can be evacuated to the heating blower of air outlet discharge by being provided between pot cover and protective cover, in pot,
Heating blower is located at outside three-dimensional heating chamber;
The upper heater or lower heater are halide torch, carbon pipe, quartz ampoule, metal tube or heating wire, lower main heating
Component is metal heat-generating pipe.
It is a kind of according to above-mentioned technical proposal any one of described in can the heating of energy-efficient roaster, cooling, exhaust
Method, it is characterised in that comprise the following steps:
A, upper cooling fan is arranged on lid, and the air of outside is pumped into by upper cooling fan, passes through insulated cavity or drop
The air of outside is blowed to upper heater top or the first reflector top or the first temperature controller surface cooling by warm passage, is forced
At the top of heater or the first reflector top or the surface of the first temperature controller rise hot-fluid and from top to bottom flowed, by cool exterior air
To cooling and being converted into warm warm air at the top of the first reflector along the first reflector periphery air outlet or the first reflector top
Set cooling channel end that air outlet is set between perforate or the first reflector and the second reflector;Into three-dimensional heating chamber
It is interior, then the air-vent through the gap between bodice and upper lid or upper lid after being mixed with the hot humid hot-air of three-dimensional heating intracavitary
Flow out body exterior;The flowing of outside cold air will be isolated to anti-scald up to enclosing cover cooling between the first reflector top and enclosing cover
Effect;
Or inside lower cooling fan bodice, by being arranged on inside upper lid, upper cooling fan takes out the air of outside
Enter, by the insulated cavity on the cavity between thermal insulation layer and base and upper lid or cooling passage through connection, by the sky of outside
Air-blowing forces upper heater top or first to upper heater top or the first reflector top or the first temperature controller surface cooling
Reflector top or the surface of the first temperature controller rise hot-fluid and from top to bottom flowed, by cool exterior air at the top of the first reflector
Cool and be converted into perforate or first of the warm warm air along the first reflector periphery air outlet or the first reflector top and reflect
Set cooling channel end that air outlet is set between cover and the second reflector;Into three-dimensional heating intracavitary, then with three-dimensional heating chamber
After interior hot humid hot-air mixing body exterior is flowed out through the air-vent of the gap between bodice and upper lid or upper lid;It is outside
The flowing of cold air the anti-scald effect that cools up to enclosing cover will be isolated at the top of the first reflector between enclosing cover;
Or the air inlet openings of lower cooling fan and outside through connection, the inflatable mouth of lower cooling fan are opened with thermal insulation layer
The air of outside is blowed to lower heater bottom or the second temperature controller surface, lower cooling fan by mouth through connection, lower cooling fan
Cool exterior air is cooled to lower heater bottom and is converted into warm warm air along between lower heater bottom and thermal insulation layer
Gap enters three-dimensional heating intracavitary, then through the seam between bodice and upper lid after being mixed with the hot humid hot-air of three-dimensional heating intracavitary
The air-vent of gap or upper lid flows out body exterior;The flowing of outside cold air will be isolated between lower heater bottom and thermal insulation layer
Reach the anti-scald effect of bottom cooling.
It is a kind of according to above-mentioned technical proposal any one of described in can energy-efficient roaster heating method, its feature
It is, comprises the following steps:
A, upper cooling fan is arranged on lid, and the air of outside is pumped into by upper cooling fan, passes through the first reflector top
Portion or the first temperature controller surface cooling, from top to bottom flow, the air outlet is at least along the peripheral air outlet of the first reflector
One setting, air outlet form an air curtain, from top to bottom drive flow direction to eat heat caused by the upper heater of inner side
Thing surface is heated, or, air outlet is combined into an air curtain, by the from top to bottom band of heat caused by the upper heater of inner side
It is dynamic to flow to foodstuff surface heating;
Or the air inlet openings of lower cooling fan and outside through connection, lower cooling fan add cool exterior air to lower
Hot device bottom cools and is converted into warm warm air forms one from the bottom to top along the gap between lower heater bottom and thermal insulation layer
Air curtain enters three-dimensional heating intracavitary, and the gap between the high-temperature hot air of three-dimensional heating intracavitary and bodice and upper lid is isolated, kept away
Exempt from high-temperature hot air quickly to outflow, increase high-temperature hot air provides energy-conservation height in the residence time heating food of three-dimensional heating intracavitary
The purpose of effect.
Using motor driving pot around its axis rotation, the food for making to be connected with bodice in pot turns over the utility model
Roll device and produce relative motion with pot, the spring shovel to connect with food rolling device is positioned over pot during food is promoted
Interior food rolls in the presence of food rolls device, food thermally equivalent, and the food is in the cold wind effect sent out from air outlet
Outer hard interior soft culinary art effect can be obtained down, further improve cuisine flavour.
The opening direction of air outlet in the utility model is towards food Rolling device and the overlapping position of pot, to only at this
The food of overlapping position carries out surface cooling, the conventional cooking without influenceing the food in other regions, is ensuring cooking quality
On the basis of, improve cooking efficiency.
The utility model is additionally provided with the support for shelving food or meal tray in pot, is set in heater
In upper cover, 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 utility model includes food rolling device and spring shovel, and spring shovel is in the rolling of food
Mainly help out, can further lift the tumbling effect of food;For the ease of picking and placeing pot, split type is additionally provided
Hand.
The utility model have it is simple and reasonable, operation flexibly, culinary art effect it is good, it is easy assembly and disassembly, the easy to clean, scope of application
The characteristics of wide.
Brief description of the drawings
Fig. 1 is circulation and outer circulation mixed airflow cross section structure diagram in the embodiment of the utility model one.
Fig. 2 is that another embodiment cooling fan of the utility model is arranged on tops cross section structure diagram.
Fig. 3 is that the embodiment cooling fan of the utility model one is arranged on radiating cross section structure diagram up and down.
Fig. 4 is that the embodiment cooling fan of the utility model one is arranged on lid side radiating cross section structure diagram.
Fig. 5 is that the embodiment cooling fan of the utility model one sets bottom radiating cross section structure diagram.
Fig. 6 is that the embodiment heat accumulation chamber of the utility model one is arranged on tops cross section structure diagram.
Fig. 7 is that another embodiment reflector of the utility model combines the setting sectional structure signal of heat accumulation chamber with protective cover
Figure.
Fig. 8 is that another embodiment reflector of the utility model combines the setting sectional structure signal of heat accumulation chamber with enclosing cover
Figure.
Embodiment
Below in conjunction with the accompanying drawings and embodiment is further described to the utility model.
Referring to Fig. 1-Fig. 8, can energy-efficient roaster, main body 01 includes bodice 1, upper lid 2, heater, pot 3, air admission hole
32nd, upper cooling fan 46, it is characterized in that a upper lid 2 is used to fix upper heater 41, reflector, upper cooling fan 46, it is described
The upper heater 41 of upper lid 2 provides the thermal source of heat radiation or illumination heating to food upper surface;
The upper cooling fan 46 is arranged on the back of reflector, positioned at reflector top or side;
The reflector top or side or periphery set air outlet 30, upper cooling fan 46 by outside Cryogenic air edge
Air outlet 30 from top to bottom flows, and so as to drive the heat of upper heater 41 to sink to flowing, reduces the bottom of heat accumulation chamber 456
Heat, the surface that the heat of a part of heat accumulation chamber 456 is at least from top to bottom flow back into food are heated again, while to upper
An enclosing cover part for lid 2 is cooled.
The reflector sets heat accumulation chamber at least provided with first reflector 35, the bottom of the first reflector 35
456, the bottom of heat accumulation chamber 456 sets upper heater 41;Heat accumulation chamber 456 is independently arranged or combination settings are under upper lid 2
Portion;The main heating of heat accumulation chamber 456 is open or perforate is downward, on the conduction heat on the top of heat accumulation chamber 456
The low-temperature airflow of cooling fan 46 is from top to bottom isolated, at least one of underlying low temperature air-flow and the top of heat accumulation chamber 456
Conduction heat mixing along air outlet 30 flow out insulated cavity 9 or cooling passage 29;
The air of outside is pumped into by the upper cooling fan 46, passes through reflector top or the first temperature controller or temperature probe
43 surface coolings, from top to bottom flowed along the peripheral air outlet 30 of reflector, 30 at least one setting of air outlet, air-out
Mouthful 30 air-out form an air curtain, and heat caused by the upper heater 41 of inner side is from top to bottom driven and flows to foodstuff surface and adds
Heat, or, the air-out of air outlet 30 is combined into an air curtain, and heat caused by the upper heater 41 of inner side is from top to bottom driven into stream
Heated to foodstuff surface.
The heat accumulation chamber 456 is downwardly extending downwardly open cavity by reflector periphery;Or heat accumulation chamber
456 are combined with protective cover 10 by reflector and form downwardly open or hole cavity-formed;Or heat accumulation chamber 456 by reflector with
Enclosing cover 20 or the combination of bottom 011 form downwardly open or hole cavity-formed.
The air of outside is pumped into by the upper cooling fan 46, passes through the top of the first reflector 35 or the first temperature controller or temperature
Control 43 surface coolings of probe, from top to bottom flow, the air outlet 30 is at least along the peripheral air outlet 30 of the first reflector 35
One setting, the air-out of air outlet 30 form an air curtain, heat caused by the upper heater 41 of inner side are from top to bottom driven into stream
To foodstuff surface heat, or, the air-out of air outlet 30 is combined into an air curtain, by heat caused by the upper heater 41 of inner side by
Drive is up to descended to flow to foodstuff surface heating.
The heat accumulation chamber(456)Downwardly open cavity is downwardly extending by the periphery of the first reflector 35;Or heat
Measure accumulation chamber(456)Combined by the first reflector 35 with protective cover 10 and form downwardly open or hole cavity-formed;Or heat
Measure accumulation chamber(456)It is used to accommodate food with one pot 3 of enclosing cover 20 or bottom by the first reflector 35 and is passed to food bottom
Lead heating;
One food Rolling device 11 is used for turning food, causes food to be heated evenly three-dimensional heating;
At least one temperature controller or temperature probe 43 are used to limit the heating-up temperature in heating chamber.
The cooling fan is at least provided with one;The upper lid 2 is anti-by enclosing cover 20, bottom 011, upper heater 41, first
Penetrate cover 35, protective cover 10, air admission hole 32, Transparent Parts composition;
Or the upper lid 2 is by enclosing cover 20, bottom 011, upper heater 41, the first reflector 35, protective cover 10, air inlet
Hole 32, upper cooling fan 46 form;
Or the upper lid 2 is made up of enclosing cover 20, bottom 011, upper heater 41, air admission hole 32, upper cooling fan 46;
The upper lid 2 is organized into an insulated cavity 9 or cooling passage 29 by enclosing cover 20 and bottom 011;
Or the upper lid 2 is organized into an insulated cavity 9 or cooling passage 29 by the reflector 35 of enclosing cover 20 and first;
The upper lid 2 sets protective cover 10, upper heater 41, the first reflector 35, enclosing cover 20 from the bottom to top;
Or the upper lid 2 sets upper heater 41, the first reflector 35, enclosing cover 20 from the bottom to top;
Or the upper lid 2 sets bottom 011, upper heater 41, the first reflector 35, enclosing cover 20 from the bottom to top;
Or the upper lid 2 sets upper heater 41, the first reflector 35, the second reflector 25, enclosing cover from the bottom to top
20;Set cooling passage 29 end that air outlet 30 is set between first reflector 35 and the second reflector 25;
The top of first reflector 35 or side or periphery set air outlet 30, lower-temperature external air along air outlet 30 by
Flowed under up into three-dimensional heating chamber 55, while the enclosing cover of upper lid 2 is cooled, lower-temperature external air driven three-dimensional heating
Hot-air mobile mixing from top to bottom in chamber 55;
First reflector 35 is independently arranged or the first reflector 35 and bottom 011 are wholely set;
Described one end of upper lid 2 is rotatablely connected with bodice 1.
The 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 admission hole 32 form;
Thermal insulation layer 91 sets upward opening, and the bottom of thermal insulation layer 91 sets lower heater 44, the inner side of lower heater 44 or periphery
Motor 8 or the driving head of motor 8 are set, gap, the bottom of thermal insulation layer 91 or one are set between the bottom of thermal insulation layer 91 and lower heater 44
Side sets lower cooling fan 45, and 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 and outside through connection, inflatable mouth and the thermal insulation layer 91 of lower cooling fan 45 are opened
The air of outside is blowed to the bottom of lower heater 44 or the second temperature controller surface, lower cooling by mouth through connection, lower cooling fan 45
Cool exterior air is cooled and is converted into warm warm air along the bottom of thermal insulation layer 91 and lower heating by fan 45 to the bottom of lower heater 44
Gap between device 44 enters in three-dimensional heating chamber 55, then is passed through after being mixed with the hot humid hot-air in three-dimensional heating chamber 55 big
Outside the air-vent outflow main body 01 in gap 31 or upper lid 2 between body 1 and upper lid 2;
Or the air inlet openings of upper cooling fan 46 and outside through connection, the inflatable mouth of upper cooling fan 46 and upper lid 2
The air of outside is blowed to the top of upper heater 41 or the by insulated cavity 9 or the cooling through connection of passage 29, upper cooling fan 46
The top of one reflector 35 or the first temperature controller surface cooling, upper cooling fan 46 is by cool exterior air to the top of the first reflector 35
Cool and be converted into perforate entrance of the warm warm air along the 35 peripheral top of 30 or first reflector of air outlet 35 of the first reflector and stand
In body heating chamber 55, then through the gap between bodice 1 and upper lid 2 after being mixed with the hot humid hot-air in three-dimensional heating chamber 55
Outside the air-vent outflow main body 01 of 31 or upper lids 2;
Outer low temperature air and the mixed temperature of heating chamber internal high temperature are at least not less than 160 degree by the cooling fan
To constant temperature in three-dimensional heating chamber 55 or to relative cooling heating in three-dimensional heating chamber 55;
The low-temperature airflow at least some of the lower cooling fan 45 blows over temperature controller or the surface cooling of temperature probe 43, or
At least a part of low-temperature airflow is blown over lower heater 44 and is converted between the warm outside of wet inflow pot 3 and the inner side of thermal insulation layer 91,
Into inside pot 3, flowed out along the gap 31 between upper lid and bodice or the gap 31 in main body 01 outside main body 01, water is steamed
Outside gas Accelerating Removal main body 01, accelerate drying and the Surface hardened layer of food, shorten the heat time of food, keep in pot 3
The condition of high temperature of gap 31 between each food is consistent, reduces the temperature difference of gap 31 between food, improves bottom heater
Efficiency, force the heat energy to bottom radiation loss during the heating of lower heater 44 to be converted into warm warm air and enter in pot 3, to pot
Food auxiliary heating in body 3, realizes that the caloric value of 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.
The downstream of upper cooling fan 46 sets temperature controller or temperature probe 43 or fuse;Or the lower downstream of cooling fan 45
Temperature controller or temperature probe 43 or fuse are set;
Upper cooling fan 46 or lower cooling fan 45 blow to cool to temperature controller or temperature probe 43 extends temperature controller or temperature
The heating work time of control probe 43, or shorten the power-off time that temperature controller or temperature probe 43 are stopped, it is total so as to shorten
Working time;Or blow heater low-temperature airflow and exchange frequent, reduction high-low temperature difference homogeneous heating by heater is cold and hot.
The upper cooling fan 46 or cooling passage 29 are arranged on the side of temperature controller or temperature probe 43, upper cooling fan
46 or the cooling inlet end of passage 29 and outside through connection, upper cooling fan 46 or cooling passage 29 outlet side point to temperature controller or
Temperature probe 43, upper cooling fan 46 or cooling passage 29 by the Cryogenic air of outside by blowing to temperature controller or temperature probe 43
Cooling;
Temperature controller or temperature probe 43 or fuse are arranged on thermal insulation layer 91 or on heater;
The heat slow flow that the low wind speed of the upper cooling fan 46 or lower cooling fan 45 loses lower heater 44;
The shell of bottom 011 is cooled simultaneously;
The lower cooling fan 45 is arranged on the bottom or side of lower heater 44, and air-flow slowly flows from the bottom to top, causes
Make lower heater 44 keep condition of high temperature heating uniform, expand the area of the thermally equivalent of pot 3, at least expand the sidepiece of pot 3
The area of thermally equivalent, or, at least expand the area of the thermally equivalent of pot 3 bottom, air-flow is along thermal insulation layer 91 and lower heating
Gap between device 44 flows up, and is open by the sidepiece of pot 3 into pot 3, and at least a part of gas is with moisture edge
Flow out in gap 31 in main body 01.
The upper cooling fan 46 or lower cooling fan 45 or cooling passage 29 are closely arranged on temperature controller or temperature control is visited
The side through connection cooling of head, or the upper cooling fan 46 or lower cooling fan 45 pass through air channel and temperature controller at a distance
Or temperature probe through connection cooling;
The wind speed of the upper cooling fan 46 or lower cooling fan 45 is at least below 3 kilometers per hour;Low wind speed accelerates
Environment homogeneous heating of the hot device to surrounding;
The air-flow is extraneous air or at least main air-flow is extraneous air;
The air channel of upper cooling fan 46 is fixedly connected in main body 01;
The cooling passage 29 is to combine for the passage 29 that is independently arranged or cools;
The upper cooling fan 46 or lower cooling fan 45 are separately positioned on lid 2 and worked together with it greatly, Huo Zheshang
Cooling fan 46 or lower cooling fan 45 are separately positioned on lid 2 and big autonomous working with it.
Motor 8 is additionally provided with the bodice 1, pot 3 connects with the output shaft of motor 8;
The food Rolling device 11 is arranged in pot 3, and food Rolling device 11 is with the relative rotary motion of pot 3 to pot
Food in body 3 is stirred upset;
The support 16 for shelving food or meal tray is additionally provided with the pot 3;
The periphery of pot 3 also includes being used for the split type handle 15 for picking and placeing pot 3.
The pot 3 surrounds the three-dimensional heating chamber 55 of opposing seal with upper lid 2 jointly, and the drop of outer circulation is set on upper lid 2
Warm air, which is fanned, to be used for constant temperature in three-dimensional heating chamber 55 or to relative cooling heating in three-dimensional heating chamber 55, or, set on upper lid 2
Heat generating component 4 is aided in, aids in the heating fan blade 61 on heat generating component 4 to be arranged in three-dimensional heating chamber 55, motor 8 is arranged on solid
The outside of heating chamber 55;Heating air duct 5 is looped around the top of lid 2;The heating fan blade 61 on heat generating component 4 is aided in in pot 3
Food auxiliary heating, realize that the caloric value of 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;
The upper heater 41 and the heating power of lower heater 44 are in the same size, or, the heating work(of lower heater 44
Rate is more than 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 set on the upper lid 2, for constant temperature in three-dimensional heating chamber 55 or to three-dimensional heating
Relative cooling heating is thermally formed three-dimensional heating chamber 55 with the bottom conductive of bodice 1 in chamber 55;Or set on the upper lid 2 outer
The cooling fan of circulation, for constant temperature in three-dimensional heating chamber 55 or to relative cooling heating in three-dimensional heating chamber 55 and bodice 1
Bottom sets the cooling fan of outer circulation and bottom conductive is thermally formed three-dimensional heating chamber 55, and cooling fan is used for three-dimensional heating
Constant temperature or to relative cooling heating in three-dimensional heating chamber 55 in chamber 55;
Or the interior circulating-heating fan blade 61 of auxiliary heat generating component 4 is set on the upper lid 2, set with the bottom of bodice 1 outer
The cooling fan and bottom conductive of circulation are thermally formed three-dimensional heating chamber 55, and cooling fan is used for constant temperature in three-dimensional heating chamber 55
Or to relative cooling heating in three-dimensional heating chamber 55;
Or the interior circulating-heating fan blade 61 of auxiliary heat generating component 4 is set on the upper lid 2, add with the bottom conductive of bodice 1
Thermosetting three-dimensional heating chamber 55.
The air admission hole 32 of heating air duct 5 on the 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, the air that air admission hole 32 enters can be evacuated to the heating wind that air outlet 30 is discharged by being provided with upper lid 2
Machine 6, heating blower 6 is positioned at auxiliary heat generating component 4 top;Or the air admission hole 32 of heating air duct 5 is arranged on the solid of pot 3 and added
The madial wall of hot chamber 55, air outlet 30 are arranged between pot cover and protective cover 10, and air admission hole 32 can be entered by being provided with pot 3
Air be evacuated to the heating blower 6 of the discharge of air outlet 30, heating blower 6 is located at outside three-dimensional heating chamber 55;
The 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.
The upper heater 41 is arranged on the lower inside of reflector, and cooling fan sets the top of reflector, and cool wind
Fan directly or indirectly drops to reflector, and cooling fan one end penetrates with extraneous air, and the other end passes through reflector and oven
Inner chamber is penetrated, and the cooling air-flow of outside is absorbed and blows to reflector side or heater side, and at least cut-off is a part of rises hot-fluid
Heat radiation to shell.
The Cryogenic air of outside is flowed through reflector or heater by the cooling fan, and conversion or warm warm air are transported downwards
It is 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 is accelerated the warm temperature of the inner chamber of main body 01, is shortened the time of heat foods, will rise
The hot-fluid of discharge, which forces, is back to the inner chamber of main body 01, while the upper case that cools, and plays anti-scald effect.
25 double-deck reflector of first reflector 35 and the second reflector is set on the upper lid, or, single-layer back is only set
Penetrate cover.
The cooling fan or cooling ducting outlet are arranged on reflector top or sidepiece.
The cooling air-flow of the cooling fan at least some is arrived in main body 01 along reflection cover outer wall or inwall flowing outside
Chamber.
The cooling fan closely or it is distantly located cooling air inlet on or side.
The cooling fan is arranged in lid or lower main body 01.
The cooling air channel is arranged on inside lid, and air admission hole 32 is located on upper lid.
The cooling air channel is arranged between Shang Gai and lower main body 01, and lower main body 01 and upper lid are traversed in the cooling air channel
Between, air admission hole 32 is arranged in lower main body 01, the bottom of main body 01 or bottom under position.
Temperature controller or temperature probe are set on the upper lid, 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,
So as to improve operating efficiency, shorten the heating work cycle or time of food, reach relatively-high temperature heat time length, draining point
It hurry up, cooling fan is anti-scald to outside cooling of the enclosing cover anti-scald or cooling fan of cooling of upper lid to bodice, accelerates inner air and outer air
Exchange, reduce oil smoke, shorten the overall work time.
The 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 will not cause the temperature of heating chamber to be less than 160 degree.
Upper cooling fan 46 is arranged on lid 2, and the air of outside is pumped into by upper cooling fan 46, passes through insulated cavity 9
Or the air of outside is blowed to the top of upper heater 41 or the top of the first reflector 35 or the first temperature controller surface by cooling passage 29
Cooling, the top of upper heater 41 or the top of the first reflector 35 or the surface of the first temperature controller is forced to rise hot-fluid and from top to bottom flow
It is dynamic, cool exterior air is cooled to the top of the first reflector 35 and is converted into warm warm air along 35 peripheral air outlet of the first reflector
The end of cooling passage 29 is set between 30 or the perforate on the top of the first reflector 35 or the first reflector 35 and the second reflector 25
End sets air outlet 30;Into in three-dimensional heating chamber 55, then passed through after being mixed with the hot humid hot-air in three-dimensional heating chamber 55
Outside the air-vent outflow main body 01 in gap 31 or upper lid 2 between bodice 1 and upper lid 2;The flowing of outside cold air is by the
The anti-scald effect that cools up to enclosing cover is isolated between the top of one reflector 35 and enclosing cover;
Or inside the lower bodice of cooling fan 45, by being arranged on inside upper lid 2, upper cooling fan 46 by outside sky
Gas is pumped into, and is connected by the insulated cavity 9 on the cavity 90 between thermal insulation layer 91 and base 101 and upper lid or the cooling insertion of passage 29
Connect, the air of outside is blowed into the top of upper heater 41 or the top of the first reflector 35 or the first temperature controller surface cooling, forced
The top of upper heater 41 or the top of the first reflector 35 or the surface of the first temperature controller rise hot-fluid and from top to bottom flowed, by outside
Cold air cools to the top of the first reflector 35 and is converted into warm warm air along 35 peripheral air outlet 30 or the first of the first reflector
Cooling passage 29 end is set to set out between the perforate on the top of reflector 35 or the first reflector 35 and the second reflector 25
Air port 30;Into in three-dimensional heating chamber 55, then after being mixed with the hot humid hot-air in three-dimensional heating chamber 55 through bodice 1 with it is upper
Outside the air-vent outflow main body 01 in gap 31 or upper lid 2 between lid 2;The flowing of outside cold air is by the first reflector 35
The anti-scald effect that cools up to enclosing cover is isolated between top and enclosing cover;
Or the air inlet openings of lower cooling fan 45 and outside through connection, the inflatable mouth of lower cooling fan 45 with it is heat-insulated
The air of outside is blowed to the bottom of lower heater 44 or the second temperature controller surface by the opening through connection of layer 91, lower cooling fan 45,
Cool exterior air is cooled and is converted into warm warm air along the bottom of lower heater 44 by lower cooling fan 45 to the bottom of lower heater 44
Gap between thermal insulation layer 91 enters in three-dimensional heating chamber 55, then is mixed with the hot humid hot-air in three-dimensional heating chamber 55
Outside the air-vent of the gap 31 between bodice 1 and upper lid 2 or upper lid 2 outflow main body 01;The flowing of outside cold air
The anti-scald effect that cools up to bottom will be isolated between the bottom of lower heater 44 and thermal insulation layer 91;
Upper cooling fan 46 is arranged on lid 2, and the air of outside is pumped into by upper cooling fan 46, passes through the first reflector
35 top or the first temperature controller surface cooling, from top to bottom flowed along the peripheral air outlet 30 of the first reflector 35, it is described go out
30 at least one setting of air port, the air-out of air outlet 30 forms an air curtain, by heat caused by the upper heater 41 of inner side by upper
Foodstuff surface heating is flowed to lower drive, or, the air-out of air outlet 30 is combined into an air curtain, and the upper heater 41 of inner side is produced
Raw heat, which from top to bottom drives, flows to foodstuff surface heating;
Or the air inlet openings of lower cooling fan 45 and outside through connection, lower cooling fan 45 is by cool exterior air pair
The bottom of lower heater 44 cool and be converted into warm warm air along the gap between the bottom of lower heater 44 and thermal insulation layer 91 by it is lower extremely
It is upper to form air curtain and enter in three-dimensional heating chamber 55, by the high-temperature hot air in three-dimensional heating chamber 55 and bodice 1 and upper lid 2 it
Between gap 31 isolate, avoid high-temperature hot air from quickly outflowing, during increase stop of the high-temperature hot air in three-dimensional heating chamber 55
Between heat food provide efficient energy-saving purpose.
The utility model is not limited to above-described embodiment, under conditions of the utility model marrow is not departed from, this area
Any variation that technical staff is done, all belongs to the scope of protection of the utility model.
Claims (23)
1. can energy-efficient roaster, main body(01)Including bodice(1), upper lid(2), heater, pot(3), air admission hole(32), on
Cooling fan(46), it is characterized in that a upper lid(2)For fixing upper heater(41), reflector, upper cooling fan(46), institute
State lid(2)Upper heater(41)The thermal source of heat radiation or illumination heating is provided to food upper surface;
The upper cooling fan(46)The back of reflector is arranged on, positioned at reflector top or side;
The reflector top or side or periphery set air outlet(30), upper cooling fan(46)By the Cryogenic air edge of outside
Air outlet(30)From top to bottom flow, so as to drive upper heater(41)Heat sink flowing, reduce heat accumulation chamber(456)
The heat of bottom, at least by a part of heat accumulation chamber(456)Heat from top to bottom flow back into the surface of food and heat again,
Simultaneously to upper lid(2)An enclosing cover part cooled.
2. it is according to claim 1 can energy-efficient roaster, it is characterized in that the reflector is first anti-at least provided with one
Penetrate cover(35), the first reflector(35)Bottom set heat accumulation chamber(456), heat accumulation chamber(456)Bottom adds on setting
Hot device(41);Heat accumulation chamber(456)It is independently arranged or combination settings is in Shang Gai(2)Bottom.
3. it is according to claim 1 can energy-efficient roaster, it is characterized in that the heat accumulation chamber(456)Main heating opening
Or perforate is downward, the heat accumulation chamber(456)The conduction heat on top is by upper cooling fan(46)Low-temperature airflow by up to
Lower isolation, at least one of underlying low temperature air-flow and heat accumulation chamber(456)The conduction heat on top is mixed along air outlet
(30)Flow out insulated cavity(9)Or cooling passage(29).
4. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan(46)By the sky of outside
Gas is pumped into, and passes through reflector top or the first temperature controller or temperature probe(43)Surface cooling, along the peripheral air-out of reflector
Mouthful(30)From top to bottom flow.
5. it is according to claim 1 can energy-efficient roaster, it is characterized in that the air outlet(30)At least one setting, goes out
Air port(30)Air-out forms an air curtain, by the upper heater of inner side(41)Caused heat, which from top to bottom drives, flows to food table
Face is heated, or, air outlet(30)Air-out is combined into an air curtain, by the upper heater of inner side(41)Caused heat is by up to
Lower drive flows to foodstuff surface heating.
6. it is according to claim 1 can energy-efficient roaster, it is characterized in that the heat accumulation chamber(456)Outside by reflector
Enclose and be downwardly extending downwardly open cavity;Or heat accumulation chamber(456)By reflector and protective cover(10)Combination formed to
Under shed or hole cavity-formed;Or heat accumulation chamber(456)By reflector and enclosing cover(20)Or bottom(011)Combine shape
Into downwardly open or hole cavity-formed.
7. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan(46)Air inlet openings
With outside through connection, upper cooling fan(46)Inflatable mouth and upper lid(2)Insulated cavity(9)Or cooling passage(29)Insertion connects
Connect, upper cooling fan(46)By cool exterior air to the first reflector(35)Top cools and to be converted into warm warm air anti-along first
Penetrate cover(35)Peripheral air outlet(30)Or first reflector(35)The perforate on top enters three-dimensional heating chamber(55)It is interior, then with solid
Heating chamber(55)Through bodice after interior hot humid hot-air mixing(1)With upper lid(2)Between gap(31)Or upper lid(2)'s
Air-vent flows out main body(01)It is outside.
8. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan is by outer low temperature air
At least three-dimensional heating chamber is given with the mixed temperature of heating chamber internal high temperature not less than 160 degree(55)Interior constant temperature or to three-dimensional heating
Chamber(55)Interior relative cooling heating.
9. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan(46)Downstream sets temperature
Control device or temperature probe(43)Or fuse;At least one temperature controller or temperature probe(43)For limiting upper lid(2)Heating
Temperature.
10. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan(46)To temperature controller or
Temperature probe, which blows to cool, extends the heating work time of temperature controller or temperature probe, or shortens temperature controller or temperature probe stopping
The power-off time of work, so as to shorten net cycle time;Or blow heater low-temperature airflow and exchanged frequently by heater is cold and hot, subtract
Small high-low temperature difference homogeneous heating.
11. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan(46)Or cooling passage
(29)It is arranged on temperature controller or temperature probe(43)Side, upper cooling fan(46)Or cooling passage(29)Inlet end and outside
Through connection, upper cooling fan(46)Or cooling passage(29)Point to temperature controller or temperature probe in outlet side(43), upper cooling wind
Fan(46)Or cooling passage(29)By the way that the Cryogenic air of outside is blowed into temperature controller or temperature probe(43)Cooling.
12. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan(46)Or cooling passage
(29)Closely it is arranged on the side through connection cooling of temperature controller or temperature probe, or the upper cooling fan(46)Long distance
Cool from by air channel and temperature controller or temperature probe through connection;
The upper cooling fan(46)Wind speed at least below two kilometers per hour;Low wind speed accelerates environment of the heater to surrounding
Homogeneous heating;Air-flow is extraneous air or at least main air-flow is extraneous air;
The upper cooling fan(46)Air channel is fixedly connected on main body(01)On;
Cool passage(29)For the passage that is independently arranged or cools(29)To combine;
The upper cooling fan(46)It is arranged on lid(2)Upper autonomous working.
13. it is according to claim 1 can energy-efficient roaster, it is characterized in that the bodice(1)For accommodating pot(3)、
Food Rolling device(11), lower heater(44), the bodice(1)The thermal source of conduction heating is provided to food bottom;One pot
Body(3)For accommodating food and being heated to food bottom conductive;
One food Rolling device(11)For turning food, food is caused to be heated evenly three-dimensional heating.
14. it is according to claim 1 can energy-efficient roaster, it is characterized in that the bodice(1)Inside it is additionally provided with motor
(8), pot(3)With motor(8)Output shaft connect;
Food Rolling device(11)It is arranged on pot(3)It is interior, food Rolling device(11)With pot(3)Relative rotary motion is to pot
Body(3)Interior food is stirred upset.
15. it is according to claim 1 can energy-efficient roaster, it is characterized in that the pot(3)Inside it is additionally provided with for putting
Put the support of food or meal tray(16);
Pot(3)Periphery also includes being used to pick and place pot(3)Split type handle(15);
Temperature controller or temperature probe(43)Or fuse is arranged on thermal insulation layer(91)On upper or heater.
16. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper lid(2)By enclosing cover(20), bottom
(011), upper heater(41), the first reflector(35), protective cover(10), air admission hole(32), Transparent Parts composition;
Or the upper lid(2)By enclosing cover(20), bottom(011), upper heater(41), the first reflector(35), protective cover
(10), air admission hole(32), upper cooling fan(46)Composition;
Or the upper lid(2)By enclosing cover(20), bottom(011), upper heater(41), air admission hole(32), upper cooling fan
(46)Composition.
17. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper lid(2)By enclosing cover(20)With bottom
(011)It is organized into an insulated cavity(9)Or cooling passage(29);
Or the upper lid(2)By enclosing cover(20)With the first reflector(35)It is organized into an insulated cavity(9)Or cooling passage
(29).
18. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper lid(2)Protection is set from the bottom to top
Cover(10), upper heater(41), the first reflector(35), enclosing cover(20);
Or the upper lid(2)Upper heater is set from the bottom to top(41), the first reflector(35), enclosing cover(20);
Or the upper lid(2)Bottom is set from the bottom to top(011), upper heater(41), the first reflector(35), enclosing cover
(20);
Or the upper lid(2)Upper heater is set from the bottom to top(41), the first reflector(35), the second reflector(25), it is outer
Lid(20);First reflector(35)With the second reflector(25)Between set cooling passage(29)End sets air outlet(30).
19. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper lid(2)One end and bodice(1)Rotate
Connection;The upper lid(2)On the first reflector(35)It is independently arranged or the first reflector(35)And bottom(011)Integrally set
Put.
20. it is according to claim 1 can energy-efficient roaster, it is characterized in that the pot(3)With upper lid(2)Surround jointly
The three-dimensional heating chamber of opposing seal(55), upper lid(2)It is upper to set the upper cooling fan of outer circulation to be used to give three-dimensional heating chamber(55)
Interior constant temperature gives three-dimensional heating chamber(55)Interior relative cooling heating.
21. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper lid(2)It is upper that the upper of outer circulation is set
Cooling fan, for giving three-dimensional heating chamber(55)Interior constant temperature gives three-dimensional heating chamber(55)Interior relative cooling heating and bodice(1)
Bottom conductive is thermally formed three-dimensional heating chamber(55).
22. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper cooling fan is arranged on three-dimensional heating
Chamber(55)Outside;
Upper cooling fan one end and extraneous air through connection, the other end and through connection in heating chamber, upper cooling fan will be outer
Portion's Cryogenic air mixed with heating chamber internal high temperature after to three-dimensional heating chamber(55)Interior constant temperature gives three-dimensional heating chamber(55)Interior phase
Cooling is heated;Cooling fan produces air-flow by vapor in heating chamber along gas outlet or main body(01)On gap(31)Row
Go out.
23. it is according to claim 1 can energy-efficient roaster, it is characterized in that the upper heater(41)For halide torch, carbon
Plain pipe, quartz ampoule, metal tube or heating wire, main body(01)Main heat generating component under upper setting(7), lower main heat generating component(7)Set
Metal heat-generating pipe;The air admission hole(32)It is arranged on protective cover(10)Middle part, positioned at main body(01)Aid in adding on heat generating component
Hot-flow flue(5)On;Air outlet(30)It is opened in protective cover(10)Outside, upper lid(2)Inside being provided with can be air admission hole(32)Into
Air be evacuated to air outlet(30)The heating blower of discharge(6), heating blower(6)Positioned at auxiliary heat generating component top;Or add
Hot-flow flue(5)Air admission hole(32)It is arranged on pot(3)Three-dimensional heating chamber(55)Madial wall, air outlet(30)It is arranged on pot cover
With protective cover(10)Between, pot(3)Inside being provided with can be air admission hole(32)The air of entrance is evacuated to air outlet(30)Discharge
Heating blower(6), heating blower(6)Positioned at three-dimensional heating chamber(55)It is outside.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN2016203439778 | 2016-04-22 | ||
CN201620343977 | 2016-04-22 |
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Publication Number | Publication Date |
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CN207125647U true CN207125647U (en) | 2018-03-23 |
Family
ID=57861923
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Application Number | Title | Priority Date | Filing Date |
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CN201621229898.0U Expired - Fee Related CN207125648U (en) | 2016-04-22 | 2016-11-16 | Can energy-efficient roaster |
CN201611005460.9A Pending CN106343895A (en) | 2016-04-22 | 2016-11-16 | Baking pan capable of efficiently saving energy |
CN201611006473.8A Pending CN106388630A (en) | 2016-04-22 | 2016-11-16 | Efficient and energy-saving roasting pan |
CN201621228735.0U Expired - Fee Related CN206641761U (en) | 2016-04-22 | 2016-11-16 | Energy-efficient roaster |
CN201611008273.6A Pending CN106343896A (en) | 2016-04-22 | 2016-11-16 | High-efficiency and energy-saving baking pan |
CN201621227537.2U Expired - Fee Related CN207125647U (en) | 2016-04-22 | 2016-11-16 | Can energy-efficient roaster |
Family Applications Before (5)
Application Number | Title | Priority Date | Filing Date |
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CN201621229898.0U Expired - Fee Related CN207125648U (en) | 2016-04-22 | 2016-11-16 | Can energy-efficient roaster |
CN201611005460.9A Pending CN106343895A (en) | 2016-04-22 | 2016-11-16 | Baking pan capable of efficiently saving energy |
CN201611006473.8A Pending CN106388630A (en) | 2016-04-22 | 2016-11-16 | Efficient and energy-saving roasting pan |
CN201621228735.0U Expired - Fee Related CN206641761U (en) | 2016-04-22 | 2016-11-16 | Energy-efficient roaster |
CN201611008273.6A Pending CN106343896A (en) | 2016-04-22 | 2016-11-16 | High-efficiency and energy-saving baking pan |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106343895A (en) * | 2016-04-22 | 2017-01-25 | 周林斌 | Baking pan capable of efficiently saving energy |
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JPH10179414A (en) * | 1996-12-26 | 1998-07-07 | Matsushita Electric Ind Co Ltd | Hot plate |
CN2409880Y (en) * | 2000-02-01 | 2000-12-13 | 张贵堂 | Roaster |
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CN102499572A (en) * | 2011-09-09 | 2012-06-20 | 周林斌 | Three-dimensional heating multifunctional wok |
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CN102727103A (en) * | 2012-06-11 | 2012-10-17 | 周林斌 | Method for baking food by airflow baking pot |
CN102727104A (en) * | 2012-06-11 | 2012-10-17 | 周林斌 | Air flow roasting pan |
CN103750755A (en) * | 2014-02-14 | 2014-04-30 | 周林斌 | Oven with detachable upper cover and use method thereof |
CN207125648U (en) * | 2016-04-22 | 2018-03-23 | 周林斌 | Can energy-efficient roaster |
-
2016
- 2016-11-16 CN CN201621229898.0U patent/CN207125648U/en not_active Expired - Fee Related
- 2016-11-16 CN CN201611005460.9A patent/CN106343895A/en active Pending
- 2016-11-16 CN CN201611006473.8A patent/CN106388630A/en active Pending
- 2016-11-16 CN CN201621228735.0U patent/CN206641761U/en not_active Expired - Fee Related
- 2016-11-16 CN CN201611008273.6A patent/CN106343896A/en active Pending
- 2016-11-16 CN CN201621227537.2U patent/CN207125647U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106343895A (en) * | 2016-04-22 | 2017-01-25 | 周林斌 | Baking pan capable of efficiently saving energy |
US11925291B2 (en) | 2020-06-09 | 2024-03-12 | Instant Brands Holdings Inc. | Pot lid assembly and cooking utensil |
US12121183B2 (en) | 2020-06-09 | 2024-10-22 | Ib Appliances Us Holdings Llc | Pot lid assembly and cooking utensil |
Also Published As
Publication number | Publication date |
---|---|
CN207125648U (en) | 2018-03-23 |
CN206641761U (en) | 2017-11-17 |
CN106343896A (en) | 2017-01-25 |
CN106343895A (en) | 2017-01-25 |
CN106388630A (en) | 2017-02-15 |
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