CN105054756A - Energy-saving environment-friendly ceramic nanometer pot - Google Patents

Abstract

The invention discloses an energy-saving environment-friendly ceramic nanometer pot which comprises a base, a ceramic pot body and an annular mounting table. The base is provided with a power supply circuit, and a nanometer electric heating film is arranged at the bottom of the ceramic pot body; one end of the mounting table is connected with the base, and the ceramic pot body is mounted at the other end of the mounting table and is separated from the base; two electrodes of the nanometer electric heating film are connected into the power supply circuit; a temperature controller is further arranged in the mounting table, is serially connected with the nanometer electric heating film and is in contact with the bottom surface of the ceramic pot body. The energy-saving environment-friendly ceramic nanometer pot has the advantages that the energy-saving environment-friendly ceramic nanometer pot is provided with the base and the annular mounting table, and the bottom surface of the ceramic pot body can be separated from the base by the annular mounting table; the nanometer electric heating film is arranged at the bottom of the ceramic pot body, accordingly, the ceramic pot body can be uniformly heated by the nanometer electric heating film in uniform heating procedures, the heating efficiency can be improved for heated bodies in the ceramic pot body, energy can be effectively saved, and environments can be effectively protected.

Description

Energy-saving environment-friendly ceramic nanometer pot

Technical field

The present invention relates to heating equipment field, particularly relate to energy-saving environment-friendly ceramic nanometer pot.

Background technology

Existing ceramic product heating technique generally adopts heat-generating disc principle, namely utilize metal heating tray to heat, first this mainly can adopt steel matter itself to heater, sometimes for reducing the relatively cheap steel matter of the many employings of product cost, but use for a long time, heat-generating disc will get rusty, extremely unfavorable to the health of people.Secondly, if heat-generating disc fouling, clean very difficult; In addition, jug with heating disk is not high to the efficiency of heating surface of heated body, and efficiency is low.

Summary of the invention

The invention provides energy-saving environment-friendly ceramic nanometer pot, the bottom surface of ceramic pan body and base, by arranging the erecting bed of base and annular, are separated by the erecting bed of annular by it; Arrange nano electroheating film in the bottom of ceramic pan body, nano electroheating film realizes uniform heating to ceramic pan body, and heating process is more even, improves the efficiency of heating surface to the heated body in ceramic pan body, more energy-conserving and environment-protective.

For realizing above-mentioned design, the present invention by the following technical solutions:

Energy-saving environment-friendly ceramic nanometer pot, comprising: the erecting bed of base, ceramic pan body and annular;

Described base is provided with power supply circuits, and the bottom of described ceramic pan body is provided with nano electroheating film; One end of described erecting bed is connected with described base, and the other end of described erecting bed is installed described ceramic pan body and described ceramic pan body is separated with base; Two electrode access power supply circuits of described nano electroheating film; Also be provided with temperature controller in described erecting bed, described temperature controller is with described nano electroheating film cascade and contact with the bottom surface of described ceramic pan body.

Wherein, also comprise radiator-grid, described radiator-grid is arranged at the bottom of described erecting bed.

Wherein, described base offers louvre, the opening conducting on described louvre and described radiator-grid.

Wherein, described erecting bed inwall is provided with support column, and the bottom surface of described ceramic pan body contacts with described support column.

Wherein, the other end of described erecting bed is provided with domatic, and the bottom surface of described ceramic pan body is provided with and described domatic corresponding inclined-plane, is describedly domaticly provided with fastener, and described inclined-plane is provided with groove, and described fastener buckles in described groove.

Wherein, the number of described fastener and groove is 3.

Wherein, described fastener and groove are uniformly distributed.

Wherein, described nano electroheating film is also provided with protective layer outward.

Wherein, the side of described ceramic pan body is also provided with handle.

Wherein, also comprise the pot cover corresponding with described ceramic pan body, described pot cover offers ventilative through hole.

Beneficial effect of the present invention is: by arranging the erecting bed of base and annular, separated in the bottom surface of ceramic pan body and base by the erecting bed of annular; Arrange nano electroheating film in the bottom of ceramic pan body, nano electroheating film realizes uniform heating to ceramic pan body, and heating process is more even, improves the efficiency of heating surface to the heated body in ceramic pan body, more energy-conserving and environment-protective.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing the embodiment of the present invention is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the content of the embodiment of the present invention and these accompanying drawings.

Fig. 1 is the explosive view of the energy-saving environment-friendly ceramic nanometer pot provided in the specific embodiment of the invention.

Fig. 2 is the overall structure figure of the energy-saving environment-friendly ceramic nanometer pot provided in the specific embodiment of the invention.

Fig. 3 is the structure chart of the ceramic pan body of the energy-saving environment-friendly ceramic nanometer pot provided in the specific embodiment of the invention.

Fig. 4 is the internal structure schematic diagram of the erecting bed of the energy-saving environment-friendly ceramic nanometer pot provided in the specific embodiment of the invention.

Wherein: 10-base; 20-erecting bed; 21-support column; 22-stud; 23-temperature controller; 24-radiator-grid; 30-ceramic pan body; 31-nano electroheating film; 32-handle; 40-pot cover.

Detailed description of the invention

The technical problem solved for making the present invention, the technical scheme of employing and the technique effect that reaches are clearly, be described in further detail below in conjunction with the technical scheme of accompanying drawing to the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those skilled in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Please refer to Fig. 1 to Fig. 4, it is the explosive view of the energy-saving environment-friendly ceramic nanometer pot provided in the specific embodiment of the invention, overall structure figure, the structure chart of ceramic pan body and the internal structure schematic diagram of erecting bed respectively.As shown in the figure, this energy-saving environment-friendly ceramic nanometer pot, comprising:

The erecting bed 20 of base 10, ceramic pan body 30 and annular;

Described base 10 is provided with power supply circuits, and the bottom of described ceramic pan body 30 is provided with nano electroheating film 31; One end of described erecting bed 20 is connected with described base 10, and the other end of described erecting bed 20 is installed described ceramic pan body 30 and described ceramic pan body 30 is separated with base 10; Two electrode access power supply circuits of described nano electroheating film 31; Also be provided with temperature controller 23 in described erecting bed 20, described temperature controller 23 is connected with described nano electroheating film 31 and is contacted with the bottom surface of described ceramic pan body 30.

The side of erecting bed 20 is provided with stud 22, and temperature controller 23 is provided with screw, and temperature controller 23 is screwed on stud 22.The test side of temperature controller 23 contacts with the bottom surface of ceramic pan body 30.When temperature controller 23 detects that the temperature of ceramic pan body 30 is too high, automatically disconnect the power supply of nano electroheating film 31, ensure Electrical Safety.

In the prior art, the mode of heating of ceramic-like container is mainly contained several as follows:

Offer an accommodating through hole in the bottom of ceramic pan, electric hot tray to be placed in accommodating through hole and by electric hot tray with seal with the junction of ceramic pan.During use, electric hot tray directly directly contacts with the heated liquid in pot body.

In the bottom of ceramic pan body, one electric hot tray is set, electric hot tray across the bottom of ceramic pan body be in ceramic pan body heated liquid heating.

But no matter be that electric hot tray directly contacts with liquid or heats across ceramic pan body, all there is significant deficiency.This defect exists with the operation principle of electric hot tray itself, can not avoid.The heater element that electric hot tray is made as traditional electric heating material, formerly in the sky with regard to existing defects.The heater element that traditional electric heating material is made is all adopt wire diameter resistance material, traditional wire diameter resistance material is when converting electrical energy into heat energy, existence due to impedance can cause the electric energy of 25% not to be converted to heat energy and lose, the light scattering that the light wave simultaneously also producing various different wave length causes and waste electric energy, the heat exchange area of adding wire diameter heating system is very little, reduce further the practical efficiency of electric energy, the thermal efficiency of heater element traditional under normal circumstances can not more than 70%, consider the factor of incrustation scale, one deck scale crust can be formed in heater element wire diameter or caliber top layer after traditional heater element uses 15 days, it is the good insulation material of heat trnasfer, actual usage data shows, the heat insulation effect of incrustation scale finally can hinder pyroconductivity more than 50%, especially vast urban area, the thermal efficiency of the electrothermal water equipment of traditional heater element manufacture is generally no more than 50%, cause serious energy waste.

Aforesaid two kinds of existing schemes, front a kind of scheme firing rate is slightly fast, makes heat absorption efficiency high less to extraradial heat; But this scheme has great harm for user, the generation of incrustation scale after Long-Time Service, the release of harmful substance have all had a strong impact on the healthy of user.Rear a kind of scheme is comparatively safe, but firing rate is slow, and invalid thermal-radiating ratio is high, does not meet the energy source use development trend of current high usage.

Compared with aforesaid prior art, the nano electroheating film 31 adopted in this programme is a kind of polysilicon semiconductor electric heating new materials, it utilizes the feature of the super-low resistivity of silicon, after admixing metal and nonmetalloid in proportion in element silicon simultaneously, utilize vapor deposition method, after 800 ° of heating, reaction becomes silicon and leads compound, makes it be deposited on carrier endosexine and obtains the conductive exothermal rete depositing 3-5 micron thickness simultaneously.In this programme, nano electroheating film 31 is integrated with ceramic pan body 30 one-tenth, and ceramic pan body 30 is the carrier of conducting medium, is also insulator simultaneously, in the vast industry of electrical heating process application, has maximum security.

In heating process, itself is not luminous as heater element for nano electroheating film 31, do not produce naked light, ceramic pan body 30 itself is insulator, and nano electroheating film 31 and and the combination of ceramic pan body 30 make ceramic pan body 30 inherently can be considered as heater element and possessed the function of heating and insulation simultaneously, be the revolutionary development of electrical heating industry.

Meanwhile, under physical energy law of conservation condition, conversion process of energy when nano electroheating film 31 works and traditional electric heating material are also different resolutely.

Nano electroheating film 31 in this programme changes by electric and magnetic oscillation the far infrared that wavelength is 4-15 micron, calandria is needed with the surface radiation heating water of orientation and other, greatest irradiation heating surface is formed with heated object, form maximum thermal conductivity values, impedance is atomic, induction reactance coefficient is no more than 0.02%, there is no rubescent and generation that is diffuse lightwave, heat-transfer rate 0.1 second, it is 6 times of conventional heating element, radiation heat loss is low, the thermal conversion efficiency more than 98% of electric energy, theoretical thermal efficiency increases by more than 30% than conventional heating element, but because nano electroheating film 31 makes ceramic pan body 30 stop metal structure completely, thermal conductance value stabilization under annual operating mode, therefore thermal efficiency ratio conventional heating element during actual use increases by more than 50%.Simultaneously, mode of heating nano electroheating film 31 in this programme is separated with water body, incrustation scale can not be produced, more can not produce the contact of incrustation scale and water, can ensure from source that in heating process, heated body is not contaminated, realize adding the absolute health of process, fundamentally avoid long-term edible be mixed with the food of incrustation scale and incrustation scale derivative after the fitness that causes declines, health worsens even canceration.

Base 10 is provided with the female 11 of coupler, erecting bed 20 is provided with the male 25 of coupler; During heating, it is that ceramic pan body 30 heats that male 25 inserts the power supply that female 11 realizes nano electroheating film 31.Generally speaking, by arranging the erecting bed 20 of base 10 and annular, by the erecting bed 20 of annular, the bottom surface of ceramic pan body 30 and base 10 are separated; Arrange nano electroheating film 31 in the bottom of ceramic pan body 30, nano electroheating film 31 pairs of ceramic pan bodies 30 realize uniform heating, and heating process is more even, improves the efficiency of heating surface to the heated body in ceramic pan body 30, more energy-conserving and environment-protective.

Preferably, also comprise radiator-grid 24, described radiator-grid 24 is arranged at the bottom of described erecting bed 20.

Radiator-grid 24 is arranged at erecting bed 20, is convenient to heat radiation diffusion downward bottom ceramic pan body 30, avoids inner accumulation of heat to cause and use electrification.

Preferably, described base 10 offers louvre, the opening conducting on described louvre and described radiator-grid 24.

Louvre accelerates the radiating rate of radiator-grid 24 further.Certainly, on the one hand because the mode of heating of nano electroheating film 31, have the infrared inside at ceramic pan body 30 to heat heated body, outside heat radiation can't affect the heating effect of ceramic pan body 30 inside; On the other hand, the setting of louvre and radiator-grid 24 and the cooling requirements of erecting bed 20 inside match, and realize the power supply circuits in protection base 10.

Preferably, described erecting bed 20 inwall is provided with support column 21, and the bottom surface of described ceramic pan body 30 contacts with described support column 21.

By the support of support column 21, ceramic pan body 30 and base 10 are isolated, the structure after installation is more stable.

Preferably, the other end of described erecting bed 20 is provided with domatic, and the bottom surface of described ceramic pan body 30 is provided with and described domatic corresponding inclined-plane, is describedly domaticly provided with fastener, and described inclined-plane is provided with groove, and described fastener buckles in described groove.

The cooperation of fastener and groove facilitates the installation of ceramic pan body 30, is exerted pressure downwards by ceramic pan body 30 and can realize coordinating of ceramic pan body 30 and erecting bed 20, enhance productivity.

Preferably, the number of described fastener and groove is 3.

Preferably, described fastener and groove are uniformly distributed.

3 fasteners and groove can provide sufficiently stable installation effect, and in like manner, the number of support column 21 also can be set to 3.

Preferably, described nano electroheating film 31 is outer is also provided with protective layer.

Protective layer can protect nano electroheating film 31 from the corrosion of external environment condition, extends the service life of product.

Preferably, the side of described ceramic pan body 30 is also provided with handle 32.

Movement in handle 32 process easy to use, avoids scalding.

Preferably, also comprise the pot cover 40 corresponding with described ceramic pan body 30, described pot cover 40 offers ventilative through hole.

Below know-why of the present invention is described in conjunction with specific embodiments.These describe just in order to explain principle of the present invention, and can not be interpreted as limiting the scope of the invention by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present invention, and these modes all will fall within protection scope of the present invention.

Claims (10)

1. energy-saving environment-friendly ceramic nanometer pot, is characterized in that, comprising: the erecting bed (20) of base (10), ceramic pan body (30) and annular;

Described base (10) is provided with power supply circuits, and the bottom of described ceramic pan body (30) is provided with nano electroheating film (31); One end of described erecting bed (20) is connected with described base (10), and the other end of described erecting bed (20) is installed described ceramic pan body (30) and described ceramic pan body (30) is separated with base (10); Two electrode access power supply circuits of described nano electroheating film (31); Also be provided with temperature controller (23) in described erecting bed (20), described temperature controller (23) is connected with described nano electroheating film (31) and is contacted with the bottom surface of described ceramic pan body (30).

2. energy-saving environment-friendly ceramic nanometer pot according to claim 1, is characterized in that, also comprises radiator-grid (24), and described radiator-grid (24) is arranged at the bottom of described erecting bed (20).

3. energy-saving environment-friendly ceramic nanometer pot according to claim 2, is characterized in that, described base (10) offers louvre, the opening conducting on described louvre and described radiator-grid (24).

4. energy-saving environment-friendly ceramic nanometer pot according to claim 1, it is characterized in that, described erecting bed (20) inwall is provided with support column (21), and the bottom surface of described ceramic pan body (30) contacts with described support column (21).

5. energy-saving environment-friendly ceramic nanometer pot according to claim 1, it is characterized in that, the other end of described erecting bed (20) is provided with domatic, the bottom surface of described ceramic pan body (30) is provided with and described domatic corresponding inclined-plane, describedly domaticly be provided with fastener, described inclined-plane is provided with groove, and described fastener buckles in described groove.

6. energy-saving environment-friendly ceramic nanometer pot according to claim 5, is characterized in that, the number of described fastener and groove is 3.

7. energy-saving environment-friendly ceramic nanometer pot according to claim 6, it is characterized in that, described fastener and groove are uniformly distributed.

8. energy-saving environment-friendly ceramic nanometer pot according to claim 1, is characterized in that, described nano electroheating film (31) is also provided with protective layer outward.

9. energy-saving environment-friendly ceramic nanometer pot according to claim 1, is characterized in that, the side of described ceramic pan body (30) is also provided with handle (32).

10. energy-saving environment-friendly ceramic nanometer pot according to claim 1, is characterized in that, also comprise the pot cover (40) corresponding with described ceramic pan body (30), (40) offer ventilative through hole with described pot cover.