CN201243970Y

CN201243970Y - Energy-saving composite pan bottom structure using heat sources of gas and electromagnetic stove concurrently

Info

Publication number: CN201243970Y
Application number: CNU2008201469878U
Authority: CN
Inventors: 赵晓东
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-09-01
Filing date: 2008-09-01
Publication date: 2009-05-27
Anticipated expiration: 2018-09-01

Abstract

The utility model provides an energy-saving composite pot bottom structure integrally using heat sources of fuel gas and an induction cooker, belonging to the field of cooking tools. A column radiator and a collector are made of aluminum materials, the upper surface of the radiator is provided with a plurality of annular grooves which are shaped as a target centre, the width and the depth of each groove are same, the lower surface of the collector is provided with tongues with the same width, depth, position and number with the grooves of the radiator, the upper surface of the radiator and the lower surface of the collector adopt a coincident structure and are both planes; a vortex plate is made by an iron plate or a steel plate with high magnetic inductivity, the diameter of the vortex plate is equal to the diameter of the radiator; the vortex plate is welded with the lower surface of the radiator into an integer by the pressing way; and the upper surface of the collector is welded with the pot bottom into an integer. The utility model realizes that the same common stainless steel pot or aluminum pot efficiently uses the two heat sources of the fuel gas and the induction cooker, and improves the adsorbing rate of the flat pot bottom to the heat source of the fuel gas by the special structure.

Description

The energy-conservation compound pot bottom structure of dual-purpose combustion gas and electromagnetic stove thermal source

Affiliated technical field

The utility model belongs to the cook utensil field, specifically is the energy-conservation compound pot bottom structure of a kind of dual-purpose combustion gas and electromagnetic stove thermal source.

Background technology

At present, aluminum pot is in light weight with it, heat conduction good, cheap and be subjected to people's favor, but aluminum pot because of its bottom of a pan not magnetic conduction can not directly use the electromagnetic stove thermal source; The common stainless steel pot is stuck with paste at the end because of the bottom of a pan inhomogeneous the causing easily of being heated when using the electromagnetic stove thermal source; Because pot, the particularly unreasonable structure in the stainless steel flat plate shape the bottom of a pan at the bottom of the existing tabular cause the bottom of a pan low to the absorptivity of heat source gas.

Summary of the invention

Can not directly use the electromagnetic stove thermal source in order to solve existing aluminum pot, the common stainless steel pot uses the electromagnetic stove thermal source easily to cause and sticks with paste at the end, tabular the bottom of a pan problem low when using heat source gas to the thermal source absorptivity, the utility model provides the energy-conservation compound pot bottom structure of a kind of dual-purpose combustion gas and electromagnetic stove thermal source, solve aluminum pot and can not directly use the electromagnetic stove thermal source, the common stainless steel pot uses the electromagnetic stove thermal source easily to cause and sticks with paste at the end, tabular the bottom of a pan problem low to the thermal source absorptivity when using heat source gas.

The technical scheme that its technical problem that solves the utility model adopts is: the energy-conservation compound pot bottom structure of dual-purpose combustion gas and electromagnetic stove thermal source is made of vortex board, radiator, heat collector, thermal insulation layer, the bottom of a pan, screw, screw hole, installing hole.Make columned radiator and heat collector with aluminium: material, thickness, the diameter of radiator and heat collector are identical, be manufactured with a plurality of annular grooves of target center shape above the radiator, width, the degree of depth of each groove are identical, be made into the tongue identical below the heat collector with width, the degree of depth, position, the quantity of radiator groove, be the structure of coincideing mutually below the top and heat collector of radiator, the top of the following and heat collector of radiator all is planes; The chemical impregnation melanism is carried out on the surface of radiator and heat collector handle, to improve pyroconductivity.Vortex board is to make the equal diameters of vortex board and radiator with the iron plate of high permeability or steel plate; With the following pressure welding of vortex board and radiator is one; With the top of heat collector and the bottom of a pan pressure welding is one; Thermal insulation layer is the annulation around radiator and heat collector, thermal insulation layer is made of corrosion resistant plate, its bottom is manufactured with crimping, thermal insulation layer is used to stop thermal source to reveal, and the thermal source reflected back heat collector that will do not absorbed by heat collector, absorbs again, thermal insulation layer also plays and supports the pot body weight and prevent that the spillage in the cooking process from putting the effect of gas flame out by water when using heat source gas, thermal insulation layer can be made into double-deck, and places fire-resistant heat insulating material between two-layer, to improve effect of heat insulation; The side of radiator and heat collector ring periphery, each equidistantly makes three screw holes, and on the corresponding position of thermal insulation layer the fabrication and installation hole; The bottom of a pan installation is close at the top of thermal insulation layer, is fastened on the heat collector with screw, and radiator is articulated on the thermal insulation layer with screw, causes the utility model malformation to prevent the material expanded by heating.

The beneficial effects of the utility model are, have realized that same common stainless steel pot or aluminum pot efficiently use combustion gas and two kinds of thermals source of electromagnetic stove, and its special structure has improved the absorptivity of the tabular the bottom of a pan to heat source gas.The utility model cost of manufacture is low, is applicable at the bottom of the pot, kettle of stainless steel or aluminium matter.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is a cross-sectional view of the present utility model.

Fig. 2 is the schematic top plan view of radiator.

Fig. 3 is the elevational schematic view in heat collector, thermal insulation layer, the bottom of a pan.

Annular rings among Fig. 2, Fig. 3 is represented the sunk part of radiator and heat collector.

1. vortex boards among the figure, 2. radiator, 3. heat collector, 4. thermal insulation layer, the 5. the bottom of a pan, 6. screw, 7. screw hole, 8. installing hole.

The specific embodiment

Describe referring to figs. 1 to Fig. 3: (5) structure is made of vortex board (1), radiator (2), heat collector (3), thermal insulation layer (4), the bottom of a pan (5), screw (6), screw hole (7), installing hole (8) at the bottom of the energy-conservation compound pot of dual-purpose combustion gas and electromagnetic stove thermal source.Make columned radiator (2) and heat collector (3) with aluminium: material, thickness, the diameter of radiator (2) and heat collector (3) are identical, be manufactured with a plurality of annular grooves of target center shape above the radiator (2), width, the degree of depth of each groove are identical, be made into the identical tongue of width, the degree of depth, position, quantity below the heat collector (3) with radiator (2) groove, be the structure of coincideing mutually below the top and heat collector (3) of radiator (2), the top of the following and heat collector (3) of radiator (2) all is planes; The chemical impregnation melanism is carried out on the surface of radiator (2) and heat collector (3) handle, to improve pyroconductivity.Vortex board (1) is to make the equal diameters of vortex board (1) and radiator (2) of the iron plate of high permeability or steel plate; With the following pressure welding of vortex board (1) and radiator (2) is one; With the top and the bottom of a pan (5) pressure welding of heat collector (3) is one; Thermal insulation layer (4) is the annulation around radiator (2) and heat collector (3), thermal insulation layer (4) is made of corrosion resistant plate, its bottom is manufactured with crimping, thermal insulation layer (4) is used to stop thermal source to reveal, and the thermal source reflected back heat collector (3) that will do not absorbed by heat collector (3), absorb again, thermal insulation layer (4) also plays and supports the pot body weight and prevent that the spillage in the cooking process from putting the effect of gas flame out by water when using heat source gas, thermal insulation layer (4) can be made into double-deck, and between two-layer, place fire-resistant heat insulating material, to improve effect of heat insulation; The side of radiator (2) and heat collector (3) ring periphery, each equidistantly makes three screw holes (7), and on the corresponding position of thermal insulation layer (4) fabrication and installation hole (8); The bottom of a pan (5) installation is close at the top of thermal insulation layer (4), is fastened on the heat collector (3) with screw (6), and radiator (2) is articulated on the thermal insulation layer (4) with screw (6), causes the utility model malformation to prevent the material expanded by heating.

When using the culinary art of electromagnetic stove thermal source: vortex board (1) and radiator (2) are articulated on the thermal insulation layer (4) with screw (6), the pot body is placed on the electromagnetic stove, the kitchen range face of the following contact electromagnetic stove of vortex board (1), the tongue and groove part of radiator (2) and heat collector (3) closely contacts under the gravity pressing; The thermal source that electromagnetic stove produces on vortex board (1) is transmitted in the pot rapidly according to the order of vortex board (1), radiator (2), heat collector (3), the bottom of a pan (5); Because of between vortex board (1) and the radiator (2), be that pressure welding is an one between heat collector (3) and the bottom of a pan (5), and radiator (2) and heat collector (3) are the structures of coincideing mutually that handle through the chemical impregnation melanism on the surface, that aluminium is made, so overall thermal conductivity height; Thermal insulation layer (4) has stoped the thermal source leakage around radiator (2) and heat collector (3), has guaranteed the thermal source utilization rate of electromagnetic stove; Because aluminium has good pyroconductivity, with the bottom of a pan (5) pressure welding be that the heat collector (3) of one makes the temperature in the bottom of a pan even, phenomenon at the bottom of the paste when having avoided the common stainless steel pot to use the electromagnetic stove thermal source.

When using the heat source gas culinary art: vortex board (1) and radiator (2) are taken off from thermal insulation layer (4), directly the pot body is placed on the heat source gas and heats, with the bottom of a pan (5) pressure welding be that the heat collector (3) of one has enlarged the endotherm area of the bottom of a pan (5), improved the absorptivity of the bottom of a pan (5) to heat source gas, the thermal source reflected back heat collector (3) that thermal insulation layer (4) will not absorbed by heat collector (3), absorb, thermal source is transmitted in the pot rapidly by heat collector (3) and the bottom of a pan (5) again; When producing spillage in the cooking process, spillage flows on the kitchen range top along the lower end of thermal insulation layer (4), because spillage does not reach kitchen range, so can not put gas flame out by water.

Those of ordinary skill in the art will be appreciated that: the utility model is not limited to above-mentioned embodiment, above embodiment is used for illustrating the utility model, and be not to be used as qualification of the present utility model, as long as in connotation scope of the present utility model, all will drop in the scope of the utility model claims variation, the distortion of the above embodiment.

Claims

1. the energy-conservation compound pot bottom structure of dual-purpose combustion gas and electromagnetic stove thermal source, by vortex board, radiator, heat collector, thermal insulation layer, the bottom of a pan, screw, screw hole, installing hole constitutes, it is characterized in that: make columned radiator and heat collector with aluminium, the material of radiator and heat collector, thickness, diameter is identical, be manufactured with a plurality of annular grooves of target center shape above the radiator, the width of each groove, the degree of depth is identical, be manufactured with width below the heat collector with the radiator groove, the degree of depth, the position, the tongue that quantity is identical, be the structure of coincideing mutually below the top and heat collector of radiator, the top of the following and heat collector of radiator all is planes; Its vortex board is made of iron plate, the equal diameters of vortex board and radiator, and the following pressure welding of vortex board and radiator is an one, the top and the bottom of a pan pressure welding of heat collector is an one; Thermal insulation layer is the annulation around radiator and heat collector, thermal insulation layer is made of corrosion resistant plate, its bottom is manufactured with crimping, the side ring periphery of radiator and heat collector, each equidistantly is manufactured with three screw holes, and on the corresponding position of thermal insulation layer, being manufactured with installing hole, the bottom of a pan installation is close at the thermal insulation layer top, is fastened on the heat collector with screw.

2. the energy-conservation compound pot bottom structure of dual-purpose combustion gas according to claim 1 and electromagnetic stove thermal source is characterized in that: described vortex board can be made of steel plate.

3. the energy-conservation compound pot bottom structure of dual-purpose combustion gas according to claim 1 and electromagnetic stove thermal source is characterized in that: described thermal insulation layer can be made into double-deck, and places fire-resistant heat insulating material between two-layer.

4. the energy-conservation compound pot bottom structure of dual-purpose combustion gas according to claim 1 and electromagnetic stove thermal source is characterized in that: described vortex board and radiator are articulated on the thermal insulation layer with screw when using the electromagnetic stove thermal source.

5. the energy-conservation compound pot bottom structure of dual-purpose combustion gas according to claim 1 and electromagnetic stove thermal source is characterized in that: described vortex board and radiator take off from thermal insulation layer when using heat source gas.