CN2330274Y - High-effective energy-saving pan - Google Patents

Abstract

The utility model relates to a high-effective energy-saving pan, comprising a pan body, and is characterized in that the bottom part of the pan body is distributed with heat absorption sheet; the periphery of the heat absorption sheet is provided with a fire shield extending downwards along the pan bottom, and the heat absorption sheet is of a conical sheet body whose upper part is thick and lower part is thin. The heat absorption sheet of the utility model can also increase the heat absorption area and the affinity effect between the pan body and water rather than hard contact, and flames and the heated object are in a favorable matched heat conduction state. The utility model has the advantages that the utilization of fuels can be effectively improved, energy can be saved, pollution can be further reduced, and cooking time can be shortened.

Description

Efficient, energy-saving cooker

The utility model relates to a kind of kitchenware, is a kind of efficient, energy-saving cooker specifically.

Existing is the various pots, kettle etc. of thermal source with flame, and its structure is continued to use the pattern before more than 1,000 year always, does not almost have great change except that used material.Long-term use facts have proved that existing various pot kettles still have very big shortcoming, mainly are the conduction patterns of not noticing flame burning condition and heat, therefore the thermal efficiency is lower, unfavorable to burning to a certain extent, not only can cause the waste of the energy, and can cause environmental pollution.

Traditional pot, the end of kettle are a plane or hemisphere profile.Higher because of the temperature of flame, (greatly about 900 ℃-1000 ℃, and the temperature in the bottom of a pan is lower, and greatly about 50 ℃-120 ℃, because both temperature difference great disparities, flame and pot body are in hard state of contact, and state does not promptly match.When this state causes flame to prolong the bottom of a pan apparent motion, form stratosphere, temperature in the place of the contact position of the pot body on the stratospheric upper strata of flame, because of the temperature of pot body is crossed low the reduction, thereby destroyed burning condition herein, the phenomenon of fire extinguishing occurred, formed a fire extinguishing layer.Though this fire extinguishing layer has only 1～2 millimeter, its thermal resistance is very high, and heat absorption produces certain harmful effect to the pot body.In addition, the some of the fuel gas after the fire extinguishing is prolonged a pot surface and is discharged into the space, causes the pollution to environment, and a part of one-tenth tar material sticks in pot bottom, and further strengthens thermal resistance.The flame of lower stratosphere is because of far away from the pot body, and heat can not in time conduct pot body and be discharged into the space with stratosphere, thereby has caused certain energy waste.In sum, the pot body heat absorption of existing pot is main, and heat exchange pattern then carries out in the inside of pot body by the radiation to hot-fluid, and is little to pot body heat absorption influence.

And the purpose of this utility model is to provide a kind of efficient, energy-saving cooker, changes the structure in the bottom of a pan, thereby set up good burning condition and heat absorption capacity between pot body and flame, increases endothermic effect, improves the thermal efficiency, saves the energy, reduces and pollutes.

The purpose of this utility model is achieved in that a kind of efficient, energy-saving cooker, includes one pot of body, it is characterized in that the bottom of described pot body is distributed with heat absorbing sheet, in the periphery of this heat absorbing sheet, is provided with the fireguard that is extended by the bottom of a pan downwards.

The purpose of this utility model also can be realized by following measure, described heat absorbing sheet is to present thick thin down taper lamellar body, and arrange circlewise, its optimal spacing is 15～20mm, best line-spacing is 15～20mm, optimum thickness is 1.5mm, and heat absorbing sheet is an angle of inclination radial arrangement in every ring, and is opposite with the angle of inclination of the heat absorbing sheet of adjacent ring in twos; But described heat absorbing sheet semicircular in shape or can be ringwise, and annular distribution from inside to outside, its best line-spacing is 20～25mm; The lower edge indentation of heat absorbing sheet, its highly the best be 1.5mm; But the lower edge indentation of described heat absorbing sheet fireguard; The shape in the described the bottom of a pan can be planar shaped or hemispherical, and the optimum height of flat shape pot fireguard is 30mm, and the fireguard optimum height in the hemispherical the bottom of a pan is 40mm.

Effect of the present utility model is, because the utility model is provided with several thin heat absorbing sheets in the bottom of pot body, further increased endotherm area, during use, most heat absorbing sheet all is among the thermal-flame, when flame passes through heat absorbing sheet, and form turbulent, increase endothermic effect, thin heat absorbing sheet also is easy to by flame heat to very high temperature, and this moment heat absorbing sheet and flame between the temperature difference very little, so do not influence flame burning, the heat that heat absorbing sheet absorbed conducts to the most heat of flame by conduction inwall, heated food or the water of pot body.Heat absorbing sheet in the utility model has also increased the affinity interaction of endotherm area and pot body and water in addition, rather than hard contact, and it makes and presents good coupling heat conduction state between flame and the heated object.Improve the utilization rate of fuel effectively, thereby can save the energy widely, further reduced and pollute, shortened the cooking time simultaneously.

The explanation of accompanying drawing drawing:

The structural representation in the hemispherical the bottom of a pan in Fig. 1 the utility model;

The structural representation in the flat shape the bottom of a pan in Fig. 2 the utility model;

The distribution map of the short heat absorbing sheet of Fig. 3 the utility model;

The structural representation of pan heat absorbing sheet in Fig. 4 the utility model;

The structural representation of hemisphere the bottom of a pan heat absorbing sheet in Fig. 5 the utility model;

The distribution map of the semicircle heat absorbing sheet of Fig. 6 the utility model;

The distribution map of Fig. 7 the utility model annular heat absorbing sheet;

It is as follows to describe the utility model in detail below in conjunction with embodiment and accompanying drawing thereof;

See also Fig. 1 to shown in Figure 3, the utility model includes one pot of body 1, the shape in the bottom of a pan 11 of this pot body 1 can be as shown in Figure 2 the planar shaped the bottom of a pan 111 or the hemispherical the bottom of a pan 112 as shown in Figure 1.At the bottom of the pan 111 or the hemisphere the bottom of a pan 112 on be distributed with heat absorbing sheet 2, heat absorbing sheet 2 is for presenting thick thin down taper lamellar body.In the periphery of this heat absorbing sheet 2, be provided with by the bottom of a pan 111 or 112 fireguards 3 that extend downwards.This water fender 3 is the ring-type of sealing, and heat absorbing sheet 2 is encircled in wherein.The lower edge indentation of fireguard 3, the optimum height that is used for the fireguard 31 in the hemispherical the bottom of a pan 112 is 40mm; The optimum height that is used at the bottom of the pan 111 fireguard 32 is 30mm.

See also shown in Figure 3ly, heat absorbing sheet 2 is short-movie shape 21 in the present embodiment, is arranged in ring-type from inside to outside, and heat absorbing sheet 21 is an angle of inclination radial arrangement in every ring, and the angle of inclination of the heat absorbing sheet 21 of adjacent ring is opposite in twos.So ring by ring is closed in flame in the heat absorbing sheet, to form eddy flow shape flame in the bottom of a pan.The optimal spacing of each heat absorbing sheet is 15～20mm, and the best line-spacing of every ring is 15～20mm.The shape of heat absorbing sheet 21 can be referring to Fig. 4 and shown in Figure 5, as be used at the bottom of the pan 111 heat absorbing sheet 211 lower ends and the bottom of a pan 111 parallel horizontal in bottom surface arranged; The heat absorbing sheet 212 that is used for the hemisphere the bottom of a pan 112 is parallel circular-arc in lower end and the bottom of a pan 112 then.The optimum height of heat absorbing sheet is 1.5mm.

Please join shown in Figure 6, for making the processing characteristics of heat absorbing sheet better, but heat absorbing sheet 22 semicirculars in shape, and annular distribution alternately from inside to outside, its best line-spacing is 20～25mm.Therefore still can form the flame of eddy flow shape in the bottom of a pan.

See also shown in Figure 7ly, this heat absorbing sheet 23 can be ringwise, annular distribution from inside to outside, and the heat absorbing sheet 23 of this kind ring-type, processing characteristics is better, but the effect of its heat absorption is not as above-mentioned two kinds, and best line-spacing is 20～25mm.

But the lower edge of above-mentioned heat absorbing sheet 21,22,23 is indentation all, its highly the best be 1.5mm, evidence, it is better to have its result of use of jagged heat absorbing sheet.

Claims (10)

1, a kind of efficient, energy-saving cooker includes one pot of body, it is characterized in that the bottom of described pot body is distributed with heat absorbing sheet, in the periphery of this heat absorbing sheet, is provided with the fireguard that is extended by the bottom of a pan downwards.

2, a kind of efficient, energy-saving cooker according to claim 1 is characterized in that described heat absorbing sheet is to present thick thin down taper lamellar body.

3, a kind of efficient, energy-saving cooker according to claim 1 and 2 is characterized in that described heat absorbing sheet is the short-movie shape, and is arranged in ring-type from inside to outside that its optimal spacing is 15～20mm, and best line-spacing is 15～20mm, and optimum thickness is 1.5mm.

4, a kind of efficient, energy-saving cooker according to claim 1 and 2 is characterized in that the heat absorbing sheet of the short-movie shape that described ring status is arranged, and heat absorbing sheet is an angle of inclination radial arrangement in this every ring, and is opposite with the angle of inclination of the heat absorbing sheet of adjacent ring in twos.

5, a kind of efficient, energy-saving cooker according to claim 1 and 2, but it is characterized in that described heat absorbing sheet semicircular in shape, and annular distribution from inside to outside, its best line-spacing is 20～25mm.

6, a kind of efficient, energy-saving cooker according to claim 1 and 2 is characterized in that described heat absorbing sheet can be ringwise, annular distribution from inside to outside, and best line-spacing is 20～25mm.

7, a kind of efficient, energy-saving cooker according to claim 1 and 2 is characterized in that the lower edge indentation of described heat absorbing sheet, its highly the best be 1.5mm.

8, a kind of efficient, energy-saving cooker according to claim 1, but it is characterized in that the lower edge indentation of described heat absorbing sheet fireguard.

9, a kind of efficient, energy-saving cooker according to claim 1 is characterized in that the shape in the described the bottom of a pan can be planar shaped or hemispherical.

10, according to claim 1 or 9 described a kind of efficient, energy-saving cookers, the optimum height that it is characterized in that described flat shape pot fireguard is 30mm, and the fireguard optimum height in the hemispherical the bottom of a pan is 40mm.

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