CN104739219A - Energy-saving cookware - Google Patents

Abstract

The invention provides energy-saving cookware. The energy-saving cookware comprises a side wall and a bottom wall. Bore channels are formed in the bottom wall, wherein the bore channels extend from the upper surface of the bottom wall into the inside of the bottom wall. The bore diameter of each bore channel ranges from 1 mm to 2 mm, and the bore length of each bore channel is longer than 2 mm. According to the energy-saving cookware, the heat adsorbing efficiency of a water body inside the cookware can be substantially improved, so that the water boiling time is saved, and the energy consumption is lowered. According to the energy-saving cookware, the heat adsorbing efficiency of the water body inside the cookware can be substantially improved, so that the water boiling time is saved, and the energy consumption is lowered.

Description

Energy-saving pot

Technical field

The present invention relates to cooking apparatus field, especially, relate to a kind of energy-saving pot.

Background technology

In daily life, in order to heat up water, boil soup, the naked light equipment such as gas-cooker are often adopted to heat pan; In the process, first heat conducts to the perisporium of pan, then conducts to the water body in pot body; The surface of pan remains high Warm status, and therefore, pan is surperficial and flame itself is very huge for the heat dissipation in the external world; If the heat making naked light produce can be absorbed by the water body in pan rapidly, then will reduce the dissipation of heat in a large number, thus save energy.

Summary of the invention

For the problems referred to above, the object of the present invention is to provide a kind of energy-saving pot, this energy-saving pot significantly can improve the heat absorption efficiency of water body in pot, thus saving is heated up water the time, reduces energy consumption.

The technical solution adopted for the present invention to solve the technical problems is: this energy-saving pot comprises sidewall and diapire; Described diapire offers the inner duct extended from bottom wall upper surface to diapire, the aperture in described duct is 1mm ~ 2mm, grows up in 2mm in hole.

As preferably, the upper surface of described diapire is wavy, and described duct is from the crest of diapire to downward-extension, and side direction runs through the trough of diapire.

As preferably, the outer surface of described sidewall is made up of heat-barrier material.

As preferably, the inner surface of described diapire includes one deck heat conducting foam metal, as foam copper.

Beneficial effect of the present invention is: this energy-saving pot operationally, a small amount of water body in buttress shaft shape is included in each duct of described diapire, the surrounding of described water body all surround by the thermal conductive surface of diapire inside, there is great heating surface area, the vaporization so the water body in duct will seethe with excitement rapidly, thus make the water body in pan in whole heating process, diapire continuously produces bubble, pan is inner forms continuous print bubble flow from diapire to liquid level, this continuous air bubbles stream runs through whole water body volume, heat is transmitted rapidly in water body, greatly facilitate the absorption of water body for the bottom of a pan heat on top, thus significantly saving is heated up water the time, reduce the external dissipation of heat.

Accompanying drawing explanation

Fig. 1 is embodiment one schematic diagram of the diapire of this energy-saving pot.

Fig. 2 is embodiment two schematic diagram of the diapire of this energy-saving pot.

Fig. 3 is embodiment three schematic diagram of the diapire of this energy-saving pot.

Detailed description of the invention

Embodiment one:

In embodiment illustrated in fig. 1 one, this energy-saving pot comprises sidewall (not shown) and diapire 1.The outer surface of described sidewall can be made up of heat-barrier material, is beneficial to heat to concentrate in diapire and pot.

Described diapire 1 offers the inner duct 10 extended from bottom wall upper surface to diapire, the aperture in described duct 10 is 1mm ~ 2mm, grows up in 2mm in hole.For the aperture within the scope of this, water body can be made just can to enter in duct 10, and make the water yield in duct few as much as possible, be beneficial to rapid temperature increases.

Above-mentioned energy-saving pot operationally, a small amount of water body in buttress shaft shape is included in each duct 10 of described diapire 1, the surrounding of described water body all surround by the thermal conductive surface of diapire inside, there is great heating surface area, the vaporization so the water body in duct 10 will seethe with excitement rapidly, thus make the water body in pan in whole heating process, diapire 1 continuously produces bubble, pan is inner forms continuous print bubble flow from diapire to liquid level, this continuous air bubbles stream runs through whole water body volume, heat is transmitted rapidly in water body, greatly facilitate the absorption of water body for the bottom of a pan heat on top, thus significantly saving is heated up water the time, reduce the external dissipation of heat.

Embodiment two:

In the embodiment two shown in Fig. 2, be with the difference of embodiment one: the upper surface of described diapire 1 is wavy, the trough 12 of diapire 1 from the crest 11 of diapire 1 to downward-extension, and is run through in described duct 10 to both sides side direction.By this scheme, because crest 11 is different from the degree of depth of trough 12, make the hydraulic pressure of duct 10 upper and lower side different, thus make water body easily under hydraulic pressure effect from press-in duct, lower end, duct 10 10, and drive the gas in duct out of from upper end, duct 10, in the case, can the aperture in duct 1 be done little compared with embodiment one, by the differential water pressures at two ends, duct 10, overcome water body tension force, water body is entered in duct 10 easily.

Embodiment three:

In the embodiment three shown in Fig. 3, the heat conducting foam metal 14 that the diapire of described pan is directly close to metal base plate 13 by the layer of metal base plate 13 of below and one deck of top is formed; The water body entered wherein is separated into minute water body unit and carries out enclosed heating respectively by a large amount of holes of foam metal 14 inside, each minute water body unit is seethed with excitement rapidly vaporization, thus form on foam metal 14 surface a large amount of bubble flows risen continuously, the heat of diapire is passed to rapidly water body everywhere.The advantage of this embodiment is, it is extremely convenient to manufacture.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. an energy-saving pot, this energy-saving pot comprises sidewall and diapire (1); It is characterized in that: described diapire offers the inner duct (10) extended from bottom wall upper surface to diapire, the aperture of described duct (10) is 1mm ~ 2mm, grows up in 2mm in hole.

2. energy-saving pot according to claim 1, is characterized in that: the upper surface of described diapire (1) is wavy, and described duct (10) are from the crest (11) of diapire to downward-extension, and side direction runs through the trough (12) of diapire.

3. energy-saving pot according to claim 1, is characterized in that: the inner surface of described diapire includes one deck heat conducting foam metal (14).

4. energy-saving pot according to claim 3, is characterized in that: described foam metal is foam copper.

5. according to the energy-saving pot in Claims 1-4 described in any, it is characterized in that: the outer surface of described sidewall is made up of heat-barrier material.