CN215605106U - Oven using graphene heating component - Google Patents

Abstract

The utility model relates to an oven applying a graphene heating component, which comprises a cavity component, wherein at least two groups of graphene heating components used for providing heat for the interior of the cavity component are arranged on opposite or adjacent side surfaces in the cavity component, the two groups of opposite graphene heating components are symmetrically arranged, mounting parts connected with the two side surfaces of the cavity component are respectively arranged on the two sides of the graphene heating components, and an electrode wiring part capable of extending out of the cavity component is arranged on one side of each graphene heating component. According to the graphene heating component with the plate-shaped or sheet-shaped structure, the interior of the cavity component is more attractive, the cleaning is more convenient, the electric heat conversion efficiency of the graphene heating component is high, the heat radiation with far infrared wavelength can be efficiently emitted, the heating speed is high, and the energy efficiency of a product is effectively improved.

Description

Oven using graphene heating component

Technical Field

The utility model belongs to the technical field of ovens, and particularly relates to an oven using a graphene heating component.

Background

The existing electric oven products on the market mainly use the heating pipes as heating media, and in the design process, a plurality of heating pipes are usually arranged at the top and the bottom of the cavity assembly respectively to realize the uniform distribution of heat in the cavity. The heating tube is usually a metal heating tube or a quartz heating tube and other tubular structures, and converts electric energy into heat energy after being electrified to realize heating and cooking of food in the cavity. The heating tube with the tubular structure has smaller heating surface area, so that the heating tube and food in different distances during cooking can cause uneven local heating of the food; in addition, the electric heat conversion efficiency of the heating tube is not high, the far infrared heat radiation wavelength is short, the heating speed is low, and the use experience is influenced. Therefore, based on these problems, the utility model provides an use graphite alkene heating element's oven that can make cavity assembly inside more pleasing to the eye, it is more convenient to wash, and electric heat conversion efficiency is high, can high-efficiently send far infrared wavelength's heat radiation, and the programming rate is fast, effectively improves the efficiency of product has important realistic meaning.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides the oven with the graphene heating component, which can enable the interior of the cavity component to be more attractive, the cleaning to be more convenient, the electric-heat conversion efficiency to be high, the heat radiation with far infrared wavelength to be efficiently emitted, the heating speed to be high, and the energy efficiency of the product to be effectively improved.

The technical scheme adopted by the utility model for solving the problem is as follows:

the utility model provides an use oven of graphite alkene heating element, includes cavity assembly, be provided with at least two sets of graphite alkene heating element that are used for providing the heat for cavity assembly inside on the relative or adjacent side in the cavity assembly, graphite alkene heating element's both sides are equipped with the installed part that links to each other with two sides of cavity assembly respectively, one side of graphite alkene heating element is equipped with the electrode wiring piece outside the cavity assembly that can stretch out.

Preferably, two sets of the graphene heating assemblies opposite to each other are symmetrically arranged.

Preferably, the cavity assembly comprises a front frame, a top side, a left side, a right side, a bottom side and a rear side, and the cavity assembly and the oven door assembly form a closed cooking chamber.

Further preferably, the top and the bottom in the cavity assembly are respectively provided with the graphene heating assemblies which are oppositely arranged, or the left part and the right part in the cavity assembly are respectively provided with the graphene heating assemblies which are oppositely arranged.

Further preferably, a graphene heating assembly opposite to the oven door assembly is further arranged at the rear part in the cavity assembly.

Further preferably, the graphene heating assembly comprises a body substrate and a graphene heating material coated on one side of the body substrate.

Further preferably, the substrate of the body is a planar plate-shaped structure or a sheet-shaped structure, or a V-shaped plate-shaped structure or a V-shaped sheet-shaped structure, or an arched plate-shaped structure or an arched sheet-shaped structure.

Further preferably, the opening surface of the V-shaped and arched body substrate faces the center of the cooking chamber, and the two opposite groups of graphene heating assemblies are arranged in central symmetry with respect to the center point of the cooking chamber.

Further preferably, the mounting part is formed at the edge of the body substrate and is provided with mounting clamping lugs perpendicular to the body substrate, and the mounting clamping lugs on two sides of the graphene heating component are assembled on two side faces of the cavity component in a welding and riveting mode respectively.

Further preferably, a slot for the power supply electrode wiring piece to stretch out is formed in the side face of the cavity component, the electrode wiring piece is an electrode wiring piece extending outwards from two sides of the edge of the body substrate, and a heating component electrode wiring hole for connecting a wire for power supply is formed in the electrode wiring piece.

Further preferably, the graphene heating material is a graphene heating film, a heating wire is arranged in the graphene heating film, the heating wire can be but not limited to a fold line type, a wave line type, an S type and the like, and electrodes for connecting two electrode wiring holes of the heating assembly are plated at two ends of the heating wire respectively.

Further preferably, a blocking rib position bent downwards is formed at the front part of the top side surface of the cavity assembly, and the horizontal plane of the bottom end of the blocking rib position is located below the horizontal plane of the graphene heating assembly at the top.

Preferably, the left side surface and the right side surface are provided with one or more groups of rib position grooves for inserting a baking tray or a baking rack correspondingly.

Preferably, the bottom side surface is movably connected with a slag receiving disc which can be inserted or pulled out, and the front part and the rear part of the slag receiving disc are respectively inclined upwards to form a flow guide inclined surface.

The utility model has the advantages and positive effects that:

1. the heating device is reasonable in structural design, the heating component of the plate-shaped or sheet-shaped structure is more attractive when arranged in the cavity, the heating surface area is large, the uniformity effect is better when the food is heated by heat radiation, the service life is long, and the heating device has better cooking fun and user experience.

2. According to the utility model, the heat of the graphene heating component with the plate-shaped or sheet-shaped structure can be uniformly radiated on cooked food, so that the heat received by the food in the cavity is more uniform, and the heat loss is reduced.

3. According to the utility model, the graphene heating component has high electric heat conversion efficiency, can efficiently emit heat radiation with far infrared wavelength, has high temperature rise speed, and effectively improves the energy efficiency of products.

4. According to the utility model, the graphene heating component is assembled on two side surfaces of the cavity component through the mounting parts on two sides of the graphene heating component, the electrode wiring part of the graphene heating component can extend out of the cavity component to be connected with a power supply wire, the structure design is reasonable, the manufacturing cost is low, the mounting efficiency is high, the interior of the cavity component is more attractive, the cleaning is more convenient, and no cleaning dead angle exists.

5. According to the utility model, the blocking rib position bent downwards is formed at the front part of the top side surface of the cavity assembly, so that heat of the top graphene heating assembly can be effectively blocked from being directly radiated to the position of the oven door arranged at the front part of the cavity, and especially when the oven door assembly is an oven door with an upper door, the blocking rib position can improve the safety.

6. According to the utility model, the slag receiving disc capable of being inserted or pulled out is movably connected to the bottom side surface of the cavity assembly, and oil stains, residues and the like can flow into the slag receiving disc at the bottom besides falling on the graphene heating assembly, so that the graphene heating assembly is easy to pick up and scrub, and sanitary dead corners are not left.

Drawings

The technical solutions of the present invention will be described in further detail below with reference to the accompanying drawings and examples, but it should be understood that these drawings are designed for illustrative purposes only and thus do not limit the scope of the present invention. Furthermore, unless otherwise indicated, the drawings are intended to be illustrative of the structural configurations described herein and are not necessarily drawn to scale.

FIG. 1 is a schematic view of a half-section of a chamber body assembly;

fig. 2 is a schematic structural diagram of a graphene heating component;

fig. 3 is a schematic top view of a graphene heating assembly;

FIG. 4 is a schematic sectional view showing the structure of example 1.

In the figure: 1. the structure comprises a graphene heating assembly, 2 mounting clamping lugs, 3 electrode lugs, 4 front frames, 5 top side faces, 6 left side faces, 7 bottom side faces, 8 rear side faces, 9 body base materials, 10 graphene heating materials, 11 heating assembly electrode wiring holes, 12 blocking rib positions, 13 rib position grooves, 14 baking trays and 15 slag receiving trays.

Detailed Description

First, it should be noted that the specific structures, features, advantages, etc. of the present invention will be specifically described below by way of example, but all the descriptions are for illustrative purposes only and should not be construed as limiting the present invention in any way. Furthermore, any single feature described or implicit in any embodiment or any single feature shown or implicit in any drawing may still be combined or subtracted between any of the features (or equivalents thereof) to obtain still further embodiments of the utility model that may not be directly mentioned herein. In addition, for the sake of simplicity, the same or similar features may be indicated in only one place in the same drawing.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations. The present invention will be described in detail with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-4, an oven using graphene heating components includes a cavity component, at least two sets of graphene heating components 1 used for providing heat for the inside of the cavity component are arranged on opposite or adjacent side faces in the cavity component, the graphene heating components 1 are arranged symmetrically, two sides of the graphene heating components 1 are respectively provided with mounting pieces connected with two side faces of the cavity component, and one side of the graphene heating components 1 is provided with an electrode wiring piece capable of extending out of the cavity component.

In the technical scheme, a cavity component is used for sealing the working heat of a heating component to form a cooking chamber for baking food, a graphene heating component is used for providing heat for the interior of the cavity, two groups of graphene heating components 1 can be respectively assembled at the top and the bottom of the interior of the cavity component and can be respectively assembled at the left part and the right part of the interior of the cavity component, the two groups of graphene heating components 1 are mutually symmetrically arranged to respectively heat two sides of the food in the cavity, in addition, the graphene heating component 1 opposite to a furnace door component can be assembled at the rear part of the interior of the cavity component to heat the rear side of the food, the graphene heating component 1 is used for replacing a metal heating pipe component, the heat of a plate-shaped structure of the graphene heating component is uniformly radiated on the cooked food, the heat radiation direction is shown as the arrow direction in figure 4, and the heat received by the food arranged in the cavity is more uniform, meanwhile, the graphene heating component is high in electrothermal conversion efficiency and can efficiently emit heat radiation with far infrared wavelength. The temperature rising speed of the graphene heating assembly is high, and the energy efficiency of the product is effectively improved; meanwhile, the structure design is reasonable, the plate-shaped structure heating component is more attractive in the cavity, the heating surface area is large, the uniformity effect is better when the food is heated by heat radiation, and the service life is long. The cooking device has better cooking fun and user experience.

Wherein: graphite alkene heating element 1 assembles on two sides of cavity subassembly through the installed part of its both sides, graphite alkene heating element 1 assembles the back, the wire that is used for connecting the power supply beyond its electrode wiring piece protractile cavity subassembly, graphite alkene heating element structural design is reasonable, low in manufacturing cost, the installation effectiveness is high, compare in the surface area that generates heat less, the heat is to the tubular heating element of comparatively dispersion of radiation all around simultaneously, the setting of platelike structure heating element is more pleasing to the eye inside the cavity, and the platelike structure washs more conveniently, no washing dead angle.

It is further contemplated in this embodiment that the cavity assembly includes a front frame 4, a top side 5, a left side 6, a right side, a bottom side 7, and a rear side 8, and the cavity assembly and the door assembly form a closed cooking chamber.

Further, in this embodiment, it can be considered that the top and the bottom in the cavity assembly are respectively provided with the graphene heating assembly 1 which is arranged oppositely, or the left part and the right part in the cavity assembly are respectively provided with the graphene heating assembly 1 which is arranged oppositely, and the graphene heating assemblies 1 are arranged symmetrically to each other, so that heat is radiated on the upper and lower parts of cooked food more uniformly, and the heat received by the food arranged in the cavity is more uniform.

Further, in this embodiment, it can be considered that the graphene heating assembly 1 is disposed at the rear portion inside the cavity assembly, opposite to the oven door assembly, so that heat can be more uniformly radiated behind cooked food, and the heat received by the food placed inside the cavity can be more uniform.

Further, in this embodiment, it is considered that the graphene heating assembly 1 includes a body substrate 9 and a graphene heating material 10 coated on one side of the body substrate 9, and the graphene heating material 10 is preferably a graphene heating film.

Further, in this embodiment, it can be considered that the body substrate 9 is a planar plate-shaped structure or a sheet-shaped structure, the heat of the plate-shaped structure or the sheet-shaped structure is uniformly radiated on the cooked food, so that the heat received by the food placed in the cavity is more uniform, and the heating component of the plate-shaped structure or the sheet-shaped structure is more beautiful and more convenient to clean without cleaning dead angles.

Example 2:

embodiment 2 of the present invention is further improved on the basis of embodiment 1 so as to be able to sufficiently exert the technical advantages of the present invention, which will be exemplified below.

For example: the body base material 9 is a V-shaped plate-shaped structure or a sheet-shaped structure, or an arched plate-shaped structure or a sheet-shaped structure. Preferably, V-arrangement, arch 9 opening faces towards the culinary art room center of body substrate for the heat that graphite alkene heating element 1 produced radiates more concentratedly on the food of culinary art, reduces the heat loss, two sets of relative graphite alkene heating element 1 is central symmetry setting about the culinary art room central point, and two sets of relative graphite alkene heating element 1 are the heat radiation direction parallel of centrosymmetric position, make the heat that graphite alkene heating element 1 produced radiate more concentratedly on the food of culinary art.

Further, in embodiment 1/2, it is considered that the mounting members are mounting lugs 2 formed on the edge of the body substrate 9 and perpendicular to the body substrate 9, the mounting lugs 2 on both sides of the graphene heating element 1 are respectively assembled on both sides of the cavity assembly by welding or riveting, and preferably, the mounting lugs on both sides of the graphene heating element 1 are respectively assembled on both sides of the cavity assembly by screws.

It is further considered that in embodiment 1/2, a slot is formed on a side surface of the cavity assembly for an electrode connecting piece to extend out, the electrode connecting piece is an electrode connecting piece 3 extending outward from two sides of an edge of the main body substrate 9, and a heating assembly electrode connecting hole 11 for connecting a wire for supplying power is formed in the electrode connecting piece 3. Be equipped with the heating wire in the graphite alkene heating film, the heating wire can be but not limited to for broken line type, wave line type, S type etc. heating wire heating body substrate 9 and to giving off the heat in the culinary art room for the heat radiates on the food of culinary art uniformly, and the electrode of connecting two heating element electrode wiring holes 11 has been plated respectively to the both ends of heating wire.

Further, in the embodiment 1/2, it is considered that the blocking rib positions 12 bent downward are formed at the front portion of the top side surface of the cavity assembly, and the blocking rib positions 12 can effectively block heat of the graphene heating assemblies 1 at the top and the rear portions from directly radiating to the positions of the oven doors disposed at the front portion of the cavity. The horizontal plane of the bottom of the blocking rib position 12 is located below the horizontal plane of the graphene heating assembly 1 at the top, so that heat of the graphene heating assembly 1 can be effectively blocked and directly radiated to the position of the furnace door arranged at the front part of the cavity. Especially, when the furnace door assembly is a furnace door with an upper door, the lower end of the furnace door is connected with the front frame 4 through a hinge, and the blocking rib positions 12 can effectively block heat of the graphene heating assembly 1 at the top and the rear part from directly radiating to the opening of the furnace door, so that the heat is prevented from directly hitting the opening of the furnace door to hurt a user when the user opens the furnace door, and the safety is improved.

It is further conceivable in embodiment 1/2 for the blocking rib 12 to have a V-shaped or U-shaped cross section or another bent shape with a blocking surface.

Further, in embodiment 1/2, it is considered that when the top and the bottom of the cavity assembly are respectively provided with the graphene heating assemblies 1 disposed oppositely, one or more sets of rib grooves 13 for inserting the baking tray 14 or the grill are correspondingly formed on the left side and the right side, and the baking tray is used for holding food during cooking.

Further, in the embodiment 1/2, when the graphene heating elements 1 are disposed on the left and right portions of the cavity assembly, respectively, a hanging grill plate or grill, or a rotating grill may be disposed on the top or bottom side wall.

Further, in embodiment 1/2, it is considered that the bottom side surface 7 is movably connected with an insertable or removable slag receiving pan 15, the front and rear portions of the slag receiving pan 15 are respectively formed with a guiding inclined surface, the collected oil stain and residue can flow into the bottom slag receiving pan 15 except when falling on the graphene heating assembly, the guiding inclined surface guides and collects the oil stain and residue, and the extracted slag receiving pan 15 is easy to pick up and scrub.

It is further contemplated in example 1/2 that the graphene heating material 10 is printed on the side of the body substrate 9 away from the center of the cooking chamber, and the graphene heating material 10 heats the body substrate 9 and emits heat into the cooking chamber, so that the heat is uniformly radiated on the cooked food, and the body substrate 9 is easy to scrub, has no dead space, and is very convenient to clean.

In conclusion, the oven with the graphene heating component provided by the utility model can enable the interior of the cavity component to be more attractive, the cleaning to be more convenient, the electric heat conversion efficiency to be high, the heat radiation with far infrared wavelength to be efficiently emitted, the heating speed to be high, and the energy efficiency of a product to be effectively improved.

The present invention has been described in detail with reference to the above examples, but the description is only for the preferred examples of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (10)

1. The utility model provides an use oven of graphite alkene heating element, includes cavity assembly, its characterized in that: be provided with at least two sets of graphite alkene heating element that are used for providing the heat for cavity block inside in the cavity block on relative or adjacent side, graphite alkene heating element's both sides are equipped with the installed part that links to each other with two sides of cavity block respectively, one side of graphite alkene heating element is equipped with the electrode wiring piece outside the cavity block of protractile.

2. The oven using the graphene heating component according to claim 1, wherein: the cavity assembly comprises a front frame, a top side surface, a left side surface, a right side surface, a bottom side surface and a rear side surface, and the cavity assembly and the oven door assembly form a closed cooking chamber.

3. The oven using the graphene heating component according to claim 2, wherein: the top and the bottom in the cavity component are respectively provided with a graphene heating component which is arranged oppositely, or the left part and the right part in the cavity component are respectively provided with a graphene heating component which is arranged oppositely.

4. The oven using the graphene heating component according to claim 3, wherein: the rear part in the cavity component is also provided with a graphene heating component opposite to the furnace door component.

5. The oven using the graphene heating component according to claim 3 or 4, wherein: the graphene heating assembly comprises a body base material and a graphene heating material coated and printed on one side of the body base material.

6. The oven using the graphene heating component according to claim 5, wherein: the body base material is a plane plate-shaped structure or a sheet-shaped structure, or a V-shaped plate-shaped structure or a V-shaped sheet-shaped structure, or an arch plate-shaped structure or an arch sheet-shaped structure.

7. The oven using the graphene heating component according to claim 6, wherein: the opening surface of the V-shaped and arched body base material faces the center of the cooking chamber, and the two opposite groups of graphene heating assemblies are arranged in a central symmetry mode relative to the center point of the cooking chamber.

8. The oven using the graphene heating component according to claim 6, wherein: the mounting part is formed at the edge of the body substrate and is provided with mounting clamping lugs perpendicular to the body substrate, and the mounting clamping lugs on two sides of the graphene heating component are assembled on two side faces of the cavity component in a welding or riveting mode respectively.

9. The oven using the graphene heating component according to claim 8, wherein: the side of the cavity component is provided with a notch for the power supply electrode wiring piece to stretch out, the electrode wiring piece is an electrode wiring piece extending outwards from two sides of the edge of the body substrate, and a heating component electrode wiring hole for connecting a wire for power supply is arranged on the electrode wiring piece.

10. The oven using the graphene heating component according to claim 9, wherein: the front part of the top side surface of the cavity component is provided with a blocking rib position bent downwards, and the horizontal plane of the bottom end of the blocking rib position is located below the horizontal plane of the graphene heating component at the top.

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