CN218243862U - Novel nonmetal is taken off type and is fried in shallow oil roast ware - Google Patents

Novel nonmetal is taken off type and is fried in shallow oil roast ware Download PDF

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Publication number
CN218243862U
CN218243862U CN202221770964.0U CN202221770964U CN218243862U CN 218243862 U CN218243862 U CN 218243862U CN 202221770964 U CN202221770964 U CN 202221770964U CN 218243862 U CN218243862 U CN 218243862U
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layer
frying
temperature resistant
control switch
coating
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CN202221770964.0U
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杨忠铭
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Zhuhai Erkang Intelligent Kitchen And Bath Technology Co ltd
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Zhuhai Erkang Intelligent Kitchen And Bath Technology Co ltd
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Abstract

The utility model aims at providing a simple structure, can guarantee that food has the original flavor and the fresh and tender nonmetal of taste and takes off a type of frying in shallow oil roast ware. It is including from top to bottom high temperature resistant brilliant board (1) that the coincide set up in proper order, generate heat layer (2), insulating layer (3) and casing (4 generate heat layer (2) with be provided with graphite alkene coating (5) between high temperature resistant brilliant board (1) the outside of casing (4) is provided with control switch (6), control switch (6) with generate heat and be connected with the power cord between layer (2), control switch (6) external commercial power. The utility model discloses can be applied to food cooking equipment field.

Description

Novel nonmetal is taken off type and is fried in shallow oil roast ware
Technical Field
The utility model relates to a food cooking equipment field, in particular to novel nonmetal class of taking off frying in shallow oil roast ware.
Background
The frying and roasting device comprises common food frying and roasting equipment such as an iron plate frying device, a roasting oven and the like, generally known frying and roasting devices are all made of metal materials, and during operation, food is placed on a heating metal frame or a metal plate, and finally the food is fried and roasted. The frying and roasting device can be divided into a charcoal frying and roasting device, a gas frying and roasting device and an electric heating frying and roasting device according to different heating sources; according to different barbecue forms, the barbecue can be divided into a manual barbecue device and an automatic barbecue device; according to different purposes, the electric frying device can be divided into a household frying device and a commercial frying device.
Wherein, the charcoal frying and roasting device takes solid charcoal as a raw material, and takes combustion heat as a heat source; the gas frying and roasting device can be subdivided into a liquefied gas frying and roasting device and a natural gas frying and roasting device, and is provided with a combustion net which respectively depends on the combustion of liquefied gas and natural gas as heat sources; the electric frying and roasting device converts electric energy into heat energy, and is usually in the form of different media such as an electric heating tube, a quartz tube, volcanic rocks and the like. Charcoal used in charcoal frying and roasting devices is mostly smokeless charcoal, but oil, fat, seasonings and the like on roasted food fall on the charcoal to burn and smoke in the roasting process, so that the charcoal is often accompanied with oil smoke generation in use. In addition, because the charcoal frying and roasting device and the gas frying and roasting device are difficult to control heat accurately in the using process, the heating temperature of the surface of food is difficult to control, the food frying and roasting time and the temperature need to be determined by an operator through observing the condition of the surface of the food, and the phenomenon that meat quality becomes old or the surface of the food is zoomed due to excessive frying and roasting of the food or the phenomenon that the interior of the food is not good due to insufficient temperature is easy to occur.
In order to avoid the above situation, a novel frying and roasting device needs to be designed, so that the food can accurately control heat in the frying and roasting process, the phenomenon of zooming on the surface of the food is avoided, the food is guaranteed to have original taste and flavor, the meat is fresh and tender, the taste is good, the environmental pollution caused by grease burning is reduced, and the unhealthy property of benzopyrene generated by roasting the food is reduced.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that the prior art is not enough to overcome, provide a simple structure, can guarantee that food has the original juice and flavor and the fresh and tender nonmetal of taste is taken off a type and is fried roast ware to reduce the production of baking food benzopyrene.
The utility model adopts the technical proposal that: the utility model discloses a high temperature resistant brilliant board, the layer, insulating layer and the casing that generate heat that coincide set up from top to bottom generate heat the layer with be provided with the graphite alkene coating between the high temperature resistant brilliant board the outside of casing is provided with control switch, control switch with generate heat and be connected with the power cord between the layer, the external commercial power of control switch.
Above-mentioned scheme is visible, compared with the prior art, the utility model discloses treat the food of frying in shallow oil and roast as heating bearing plate with high temperature resistant brilliant board, wherein, changed the condition that the metal sheet that uses among the prior art heated as bearing plate to food direct contact, and high temperature resistant brilliant board can realize rapid heating up and rapid cooling, this can be for frying in shallow oil and roast quick development of work and accomplish the cleaning work after frying in shallow oil and roast convenient, after high temperature resistant brilliant board rapid cooling, can avoid frying in shallow oil the roaster to cause the possibility of scalding to the staff; in addition, the graphene coating is arranged between the heating layer and the high-temperature resistant crystal plate, and has very good heat conduction performance, so that heat emitted by the heating layer can quickly reach the high-temperature resistant crystal plate, the fried and baked food can be quickly fried and baked, meanwhile, the interior of the food is uniformly heated, the inner and outer maturity of the food is basically kept consistent, and the food is guaranteed to have original taste and flavor and fresh and tender mouthfeel; compared with the prior art, the utility model, its simple structure, preparation is convenient, and is with low costs.
Further, the layer of generating heat is the mica zone of heating, the mica zone of heating is including two mica plates of laminating from top to bottom and evenly arrange two conductor wire between the mica plate be provided with positive negative pole on the both ends of conductor wire, positive negative pole with the power cord is linked together, two the mica plate with the conductor wire bonds as a whole, this moment, graphite alkene coating is being close to high temperature resistant brilliant board on the upper flank of mica plate, perhaps graphite alkene coating is in on high temperature resistant brilliant board's the downside.
Or, the layer that generates heat is the titanium diboride layer that generates heat, the titanium diboride layer that generates heat includes aluminium oxide ceramic substrate layer the sputtering has titanium diboride semiconductor film layer on a surface of aluminium oxide ceramic substrate layer the sputtering has aluminium oxide film layer as anti-oxidant and insulating protection film layer on the titanium diboride semiconductor film layer, the coating of graphite alkene is in on another surface of aluminium oxide ceramic substrate layer, perhaps the coating of graphite alkene is in on the downside of high temperature resistant brilliant board.
Further alternatively, the heating layer is a nitinol heating layer formed after the nitinol wire is uniformly distributed, and the nitinol heating layer is disposed on the thermal insulation layer, and at this time, the graphene coating is coated on the lower surface of the high temperature resistant wafer.
Above-mentioned scheme is seen, and the layer that generates heat is the mica zone of heating, or for titanium diboride generates heat the layer, or for the nickel nobelium silk generates heat the layer again, and it is visible, and the efficiency that generates heat on the layer is high, and then improves the thermal efficiency of whole frying and roasting ware, and the layer that generates heat is optional mode more, and this has reduced the cost on the layer that generates heat relatively.
Still further, the insulating layer is an aerogel felt layer. And the aerogel carpet veneer is aerospace thermal insulation material, the utility model discloses utilize the low coefficient of heat conductivity of aerogel carpet veneer and compressive property for the heat that the layer of generating heat takes place is transmitted to the casing at a minimum, and the transmission of most heat to high temperature resistant crystal plate.
Still further, a power switch button and a temperature adjusting switch button are arranged on the control switch. Therefore, the power switch button can control the on-off of the power supply of the frying and roasting device, and the temperature adjusting switch button adjusts the input power supply power so as to adjust the heating power of the heating layer and realize the temperature adjustment.
More specifically, the casing includes the bottom plate and surrounds the bottom plate edge and the bellied surrounding skirt border that makes progress, the bottom plate with surround the skirt border integrated into one piece, evenly be provided with a plurality of supporting legss on the ground of bottom plate. Therefore, the shell surrounds the frying and roasting device, and the frying and roasting device is supported by the supporting legs, so that the cleanliness of the using environment of the frying and roasting device is ensured, the heat of the frying and roasting device is prevented from being transferred to the peripheral table board, and the using safety of the frying and roasting device is ensured.
In addition, a frying and baking area and an enclosing area arranged on the periphery of the frying and baking area are arranged on the high-temperature resistant crystal board, and the area of the frying and baking area is equal to the area of the heating layer in size. Therefore, the frying and roasting area is clearly defined on the high-temperature resistant crystal plate, so that the frying and roasting device is more convenient for workers to put food, a peripheral area is reserved, a heating layer is not arranged below the peripheral area, and the phenomenon that the workers are carelessly scalded when the whole high-temperature resistant crystal plate is in a high-temperature state is avoided.
Furthermore, a desktop temperature control switch is arranged on the surrounding area and is in electric signal connection with the control switch. Therefore, the temperature can be adjusted in the surrounding area through the desktop temperature control switch, and the use convenience of the frying and roasting equipment is improved.
Drawings
FIG. 1 is a simplified structural diagram of the present invention;
FIG. 2 is a simplified exploded view of the present invention;
FIG. 3 isbase:Sub>A cross-sectional view taken in the direction A-A of FIG. 1;
FIG. 4 is a simplified cross-sectional view of the titanium diboride heat generating layer;
FIG. 5 is a schematic diagram of a simplified structure of the mica heating layer;
fig. 6 is a simple configuration diagram of the nitinol wire heating layer.
Detailed Description
As shown in fig. 1 to 6, the utility model discloses a high temperature resistant brilliant board 1, the layer 2, the insulating layer 3 and the casing 4 that generate heat that from top to bottom coincide in proper order generate heat the layer 2 with be provided with graphite alkene coating 5 between the high temperature resistant brilliant board 1 the outside of casing 4 is provided with control switch 6, control switch 6 with generate heat and be connected with the power cord between the layer 2, the external commercial power of control switch 6. The control switch 6 is provided with a power switch button 61 and a temperature adjusting switch button 62. In this embodiment, when the power switch button 61 is pressed after the power is turned on, the operation of the toaster is started; when the frying and roasting equipment needs to be turned off, the power switch button is pressed for a long time, and the power supply is cut off. The temperature adjustment switch buttons 62 include a temperature increase button "+" and a temperature decrease button "-", and when the temperature increase button "+" is pressed, the temperature increases, and when the temperature decrease button "-" is pressed, the temperature decreases. In the present embodiment, the control switch 6 may be purchased directly, and may be a power control switch that is practical for an existing oven such as an induction cooker or an electric ceramic oven.
More specifically, layer 2 that generates heat is the mica zone of heating, the mica zone of heating includes two mica plates 21 of laminating from top to bottom and evenly arranges two conductor wire 22 between the mica plate 21 be provided with positive negative pole on conductor wire 22's the both ends, positive negative pole with the power cord is linked together, two mica plate 21 with conductor wire 22 bonds as a whole, this moment, graphite alkene coating 5 is coated and is close to high temperature resistant brilliant board 1 on the last side of mica plate 21, perhaps graphite alkene coating 5 coating is in on the downside of high temperature resistant brilliant board 1.
Or, the layer 2 that generates heat is the titanium diboride layer that generates heat, the titanium diboride layer that generates heat includes aluminium oxide ceramic substrate layer 23 a surface of aluminium oxide ceramic substrate layer 23 is sputtered there is titanium diboride semiconductor film layer 24, sputter on titanium diboride semiconductor film layer 24 have an aluminium oxide film layer as anti-oxidant and insulating protection film layer 25, graphite alkene coating 5 coats on another surface of aluminium oxide ceramic substrate layer 23, perhaps graphite alkene coating 5 coats on the downside of high temperature resistant crystal plate 1.
Alternatively, the heat generating layer 2 is a nickel nobelium wire heat generating layer 26 formed after the uniform distribution of the nickel nobelium wire, and the nickel nobelium wire heat generating layer 26 is disposed on the heat insulating layer 3, at which time, the graphene coating 5 is coated on the lower side surface of the high temperature resistant wafer 1.
The heat insulation layer 3 is an aerogel felt layer. In this embodiment, the bonding area of the aerogel felt layer and the heating layer is larger than the area of the heating layer 2, and the area of the heating layer 2 is smaller than the area of the high temperature resistant crystal plate 1. Thus, the heat of the heating layer is not transferred downwards to the shell, but only upwards to the high temperature resistant crystal plate 1.
The casing 4 comprises a bottom plate 41 and an upward-protruding surrounding skirt 42 surrounding the edge of the bottom plate 41, the bottom plate 41 and the surrounding skirt 42 are integrally formed, and a plurality of supporting legs 43 are uniformly arranged on the ground of the bottom plate 41.
The high-temperature resistant crystal plate 1 is provided with a frying and baking area 11 and an enclosing area 12 arranged on the periphery of the frying and baking area 11, and the area of the frying and baking area 11 is equal to the area of the heating layer 2 in size. A desktop temperature control switch 13 is arranged on the surrounding area 12, and the desktop temperature control switch 13 is in electric signal connection with the control switch 6.
The utility model discloses when the assembly, put into casing 4 with insulating layer 4 in, will coat 2 coincide on insulating layer 4 on the layer that generates heat of graphite alkene coating 5, wherein, the one side that has coated graphite alkene coating 5 sets up, again with high temperature resistant brilliant board 1 setting on layer 2 generates heat. Meanwhile, glue is coated between the high-temperature resistant crystal plate 1 and the shell 4, and the interior of the frying and roasting device is relatively sealed.
Finally, it should be emphasized that the above-described embodiments are merely preferred examples of the present invention, and are not intended to limit the invention, as various changes and modifications may be made by those skilled in the art, and any changes, equivalents, modifications, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A novel nonmetal boiling and roasting device is characterized in that: it is including from top to bottom high temperature resistant brilliant board (1) that the coincide set up in proper order, generate heat layer (2), insulating layer (3) and casing (4 generate heat layer (2) with be provided with graphite alkene coating (5) between high temperature resistant brilliant board (1) the outside of casing (4) is provided with control switch (6), control switch (6) with generate heat and be connected with the power cord between layer (2), control switch (6) external commercial power.
2. The novel non-metal pickpocket frying and roasting equipment according to claim 1, wherein: generate heat layer (2) is the mica zone of heating, two mica plates (21) and the even arrangement of mica zone of heating laminating are two including from top to bottom conductor wire (22) between mica plate (21) be provided with positive negative pole on the both ends of conductor wire (22), positive negative pole with the power cord is linked together, two mica plate (21) with conductor wire (22) bonding is a whole, this moment, graphite alkene coating (5) coating is close to high temperature resistant brilliant board (1) on the last side of mica plate (21), perhaps graphite alkene coating (5) coating is in on the downside of high temperature resistant brilliant board (1).
3. The novel non-metal pickpocket frying and roasting equipment according to claim 1, characterized in that: generate heat layer (2) and generate heat the layer for titanium diboride, titanium diboride generates heat the layer and includes aluminium oxide ceramic substrate layer (23) the sputtering has titanium diboride semiconductor film layer (24) on the surface of aluminium oxide ceramic substrate layer (23) the sputtering has the aluminium oxide film layer as anti-oxidant and insulating protective film layer (25) on titanium diboride semiconductor film layer (24), graphite alkene coating (5) coating is in on another surface of aluminium oxide ceramic substrate layer (23), perhaps graphite alkene coating (5) coating is in on the downside of high temperature resistant brilliant board (1).
4. The novel non-metal pickpocket frying and roasting equipment according to claim 1, characterized in that: the heating layer (2) is a nitinol wire heating layer (26) formed after the nitinol wire uniform distribution, the nitinol wire heating layer (26) is disposed on the thermal insulation layer (3), and at this time, the graphene coating (5) is coated on the lower side surface of the high temperature resistant wafer (1).
5. The novel non-metal pickpocket frying and roasting equipment according to claim 1, wherein: the heat insulation layer (3) is an aerogel felt layer.
6. The novel non-metal pickpocket frying and roasting equipment according to claim 1, characterized in that: the control switch (6) is provided with a power switch button (61) and a temperature adjusting switch button (62).
7. The novel non-metal pickpocket frying and roasting equipment according to claim 1, wherein: the shell (4) comprises a bottom plate (41) and an upward-protruding surrounding skirt edge (42) surrounding the edge of the bottom plate (41), the bottom plate (41) and the surrounding skirt edge (42) are integrally formed, and a plurality of supporting legs (43) are uniformly arranged on the ground of the bottom plate (41).
8. The novel non-metal pickpocket frying and roasting equipment according to claim 1, wherein: the high-temperature resistant crystal board (1) is provided with a frying area (11) and a surrounding area (12) arranged on the periphery of the frying area (11), and the area of the frying area (11) is equal to the area of the heating layer (2).
9. The novel non-metal pickpocket frying and roasting equipment according to claim 8, characterized in that: a desktop temperature control switch (13) is arranged on the surrounding area (12), and the desktop temperature control switch (13) is in electric signal connection with the control switch (6).
CN202221770964.0U 2022-07-11 2022-07-11 Novel nonmetal is taken off type and is fried in shallow oil roast ware Active CN218243862U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221770964.0U CN218243862U (en) 2022-07-11 2022-07-11 Novel nonmetal is taken off type and is fried in shallow oil roast ware

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221770964.0U CN218243862U (en) 2022-07-11 2022-07-11 Novel nonmetal is taken off type and is fried in shallow oil roast ware

Publications (1)

Publication Number Publication Date
CN218243862U true CN218243862U (en) 2023-01-06

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Application Number Title Priority Date Filing Date
CN202221770964.0U Active CN218243862U (en) 2022-07-11 2022-07-11 Novel nonmetal is taken off type and is fried in shallow oil roast ware

Country Status (1)

Country Link
CN (1) CN218243862U (en)

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