CN203815241U - Energy-saving cooking container - Google Patents

Abstract

The utility model is applicable to the field of cooking utensils and appliances, and provides an energy-saving cooking container which comprises a liner, burners, a housing, a heat insulating seat and heat exchange pipes, wherein the heat insulating seat and the bottom of the liner form a heat exchange room; the heat exchange pipes are used for allowing burning heat generated by the burners to pass through; the liner and the heat insulating seat are mounted in the housing; the heat exchange pipes are mounted in the heat exchange room; the burners are connected with the thermal insulating seat; a heat conduction hood connected with the heat insulating seat is arranged in the heat exchange room; the heat conduction hood and the heat insulating seat form a burning room; the tops of the burners pass through the heat insulating seat and extend into the burning room; one end of each heat exchange pipe is connected with the burning room, and the other end of the heat exchange pipe is communicated with the outside; heat conduction solid particles are put in the heat exchange room and outside the burning room. Compared with the prior art, flame generated by the burners has low possibility of leakage, heat waste is less, and the heat exchange area is large; the heat conduction solid particles are used to transfer heat, and the heat conduction is fast, so that the liner is heated quickly, the heating speed is high, the dissipated heat is less, and the heat utilization rate is high.

Description

Energy conservation boiling container

Technical field

The utility model belongs to kitchen tool apparatus field, relates in particular to a kind of energy conservation boiling container.

Background technology

In prior art, utilizing calory burning heating to boil face, stew soup is generally that pot or tank are placed on gas furnace, to pot or tank heating.But this mode of heating, heating surface (area) (HS is little, and firing rate is slow.And flame leaks seriously, cause serious heat waste.Pot or tank be direct and environmental exposure all, and amount of heat is distributed, and causes firing rate slower, and heat utilization efficiency is also lower.

Utility model content

The purpose of this utility model is to provide a kind of energy conservation boiling container, is intended to solve prior art and utilizes the heat waste of flame heating serious, the problem that firing rate is slow.

The utility model is to realize like this, a kind of energy conservation boiling container, comprise for the inner bag of splendid attire boiling material with for generation of the burner of calory burning, also comprise shell, be encircled into the heat-insulating base of Heat Room with the bottom of described inner bag and heat exchanger tube that the calory burning that produces for described burner passes through; Described inner bag and described heat-insulating base are all installed in described shell, and described heat exchanger tube is installed in described Heat Room; Described burner is connected with described heat-insulating base, is provided with the heat conduction cover being connected with described heat-insulating base in described Heat Room; Described heat conduction cover and described heat-insulating base are encircled into combustion chamber, and described combustion chamber is stretched into through described heat-insulating base in the top of described burner; One end of described heat exchanger tube is connected with described combustion chamber, and its relative other end communicates with the external world; In described Heat Room, outside described combustion chamber, be also filled with solid conductive heat particle.

Particularly, described heat-insulating base comprises heat insulation bottom board and around the heat insulation sidewall of described heat insulation bottom board, described heat insulation bottom board be located at described inner bag below and with the bottom interval setting of this inner bag, described heat insulation sidewall is located on described heat insulation bottom board and around described inner bag bottom, described heat conduction cover is connected with described heat insulation bottom board, and described burner is through described heat insulation bottom board.

Further, described heat conduction cover comprises the heat conduction side plate of heat conduction top board and the described heat conduction top board of support, and described burner top is located at described heat conduction top board interval, and described heat conduction side plate is fixed on described heat insulation bottom board and around described heat conduction top board.

Further, described heat exchanger tube coils in described Heat Room.

Further, also comprise that described air exhauster is located at the outside of described heat-insulating base for extracting the air exhauster of described heat exchanger tube burnt gas out, the entrance of described air exhauster is connected with described heat exchanger tube, and the outlet of described air exhauster is connected with the external world.

Further, also comprise the controller of striking sparks and controlling described air exhauster work for controlling described burner, described controller is installed in described shell, and the gauge tap being electrically connected to described controller is also installed on described shell.

Further, also comprise the wind chamber being connected with the entrance of described air exhauster, the opposite end of described heat exchanger tube is connected with described combustion chamber and described wind chamber respectively.

Further, also comprise row's soup pipe and soup-draining valve, the bottom of described inner bag offers Pai Tangkou, and described soup-draining valve is installed on described shell, and the opposite end of described row's soup pipe is connected with described soup-draining valve with described row's soup mouth respectively.

Further, also comprise the heat-insulation layer of being made by insulation material, described heat-insulation layer is between described shell and described inner bag.

Further, the bottom of described inner bag is also provided with for improving the reinforcement of this inner bag bottom strength.

By heat-insulating base, heat conduction cover and heat exchanger tube are set, heat-insulating base, heat conduction cover and inner bag form Heat Room, combustion chamber, heat exchanger tube is placed in Heat Room, and in Heat Room, fill solid conductive heat particle, the calory burning that burner is produced in combustion chamber, the heat part producing is the heat conduction particle heating in heat conduction cover exchange hot cell directly, and other heat enters heat exchanger tube with flame and burnt gas, the heat conduction particle heating in exchange hot cell.Heat conduction particle reaches inner bag bottom by heat, to inner bag heating, thus the boiling material in heating inner liner.Compared with prior art, the flame producing during the burning of burner place can not leak, and heat waste is few; Heat Room is that inner bag and heat-insulating base surround, and heat exchange area is large, and utilizes solid conductive heat particle heat transfer, and heat conduction is fast, thereby can to inner bag, heat fast, and firing rate is fast.Shell is set, can prevents inner bag directly and environmental exposure, reduce dissipation of heat, improve heat utilization efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of facing of a kind of energy conservation boiling container of providing of the utility model embodiment;

Fig. 2 is the sectional structure schematic diagram along Fig. 1 center line A-A;

Fig. 3 is the plan structure schematic diagram of the energy conservation boiling container of Fig. 1.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 1, Fig. 2 and Fig. 3, a kind of energy conservation boiling container that the utility model embodiment provides, comprises shell 1, inner bag 2, burner 5, heat exchanger tube 4, heat-insulating base 3 and heat conduction cover 35.Inner bag 2 and heat-insulating base 3 are arranged in shell 1, to reduce the dissipation of heat of inner bag 2.Inner bag 2 is for splendid attire boiling material, with to boiling heating material.The bottom of inner bag 2 and heat-insulating base 3 are encircled into Heat Room 33.Heat conduction cover 35 is located in Heat Room 33, and surrounds combustion chamber 36 with heat-insulating base 3.Burner 5 is for generation of calory burning, and burner 5 is connected with heat-insulating base 3, and its top extend in combustion chamber 36 through heat-insulating base 3, thereby makes burner 5 in combustion chamber 36, produce calory burning, and calory burning will first concentrate on combustion chamber 36.Heat exchanger tube 4 is connected with combustion chamber 36, and heat exchanger tube 4 is arranged in Heat Room 33, for calory burning and the burnt gas producing for burner 5, passes through.Because calory burning is generally to flow with flame and burnt gas, thereby burner 5 place's calory burnings can enter heat exchanger tube 4 heat exchange in Heat Room 33.In Heat Room 33, outside combustion chamber 36, be also filled with solid conductive heat particle 34, by solid conductive heat particle 34 and heat exchanger tube 4 heat exchange, meanwhile, by solid conductive heat particle 34 and inner bag 2, carry out heat exchange, inner bag 2 is heated, and then to boiling heating material in inner bag 2.

By heat-insulating base 3 and inner bag 2, surround Heat Room 33, heat conduction cover 35 surrounds combustion chamber 36 with heat-insulating base 3, heat exchanger tube 4 is placed in Heat Room 33, and in Heat Room 33, fill solid conductive heat particle 34, burner 5 in combustion chamber 36 calory burnings that produce, part heat is solid conductive heat particle 34 heating in heat conduction cover 35 exchange hot cells 33 directly, and other heat enters heat exchanger tube 4 with flame and burnt gas, solid conductive heat particle 34 heating in heat exchanger tube 4 exchange hot cells 33.Solid conductive heat particle 34 reaches inner bag 2 bottoms by heat, thus the boiling material in heating inner liner 2.Compared with prior art, the flame producing during the burning of burner 5 places can not leak, and heat waste is few.Heat Room 33 is that inner bag 2 surrounds with heat-insulating base 3, and heat exchange area is large, and firing rate is fast; And utilize solid conductive heat particle 34 to conduct heat, because 34 heat conduction of solid conductive heat particle are very fast, also can be quickly and heat exchanger tube 4 heat exchange, and to inner bag 2 heating, improve firing rate.Inner bag 2 and heat-insulating base 3 are installed in shell 1, can prevent inner bag 2 directly and environmental exposure, reduce dissipation of heat, improve heat utilization efficiency.Solid conductive heat particle 34 can be made for the good material of the heat conduction such as aluminium alloy, copper alloy.

Particularly, heat-insulating base 3 comprises heat insulation bottom board 31 and around the heat insulation sidewall 32 of heat insulation bottom board 31, heat insulation bottom board 31 be located at inner bag 2 below and with the bottom interval setting of inner bag 2, heat insulation sidewall 32 is located on heat insulation bottom board 31 and around inner bag 2 bottoms, heat conduction cover 35 is connected with heat insulation bottom board 31, and burner 5 is through heat insulation bottom board 31.By heat insulation bottom board 31 and inner bag 2 bottom interval settings, make heat insulation sidewall 32 around interior but bottom can be encircled into above-mentioned Heat Room 33 with inner bag 2 bottoms.And heat insulation bottom board 31 and heat insulation sidewall 32 are set, and can conveniently process, reduce the dissipation of heat in Heat Room 33.

Further, heat conduction cover 35 comprises the heat conduction side plate 352 of heat conduction top board 351 and support heat conduction top board 351.Burner 5 tops are located at heat conduction top board 351 intervals, and heat conduction side plate 352 is fixed on heat insulation bottom board 31 and around heat conduction top board 351.By heat conduction top board 351 and heat conduction side plate 352, form heat conduction cover 35, convenient processing.In other embodiment, heat conduction cover 35 also can be used Heat Conduction Material directly to cast and form, and as heat conduction cover 35 is arranged and is hemispherical, is directly cast as, and heat conduction cover 35 is buckled on heat insulation bottom board 31, forms combustion chamber 36.

Further, heat exchanger tube 4 coils in Heat Room 33.Heat exchanger tube 4 is at least one, also can be for a plurality of.By the coiling of heat exchanger tube 4, increase its length, correspondingly can increase heat exchange area, improve heat utilization efficiency.Further, heat exchanger tube 4 can also coil and be multilayer, to increase heat exchange area.

Further, this energy conservation boiling container also comprises for extracting the air exhauster 6 of heat exchanger tube 4 waste gas out.Air exhauster 6 is located at the outside of heat-insulating base 3, and the entrance of air exhauster 6 is connected with heat exchanger tube 4, and the outlet of air exhauster 6 is connected with the external world.And air exhauster 6 entrances are connected with heat exchanger tube 4, air exhauster 6 outlets are connected with the external world, thereby can make heat exchanger tube 4 communicate with the external world, and waste gas in heat exchanger tube 4 is discharged through air exhauster 6.And extract waste gas in heat exchanger tube 4 out by air exhauster 6, and can guarantee the abundant burning of the fuel in combustion chamber 36, improve fuel availability.Certainly, air exhauster 6 outlets can also connect smokestack (not shown), so that the waste gas that guiding is discharged.

Further, this energy conservation boiling container also comprises that controller 7 is installed in shell 1, and the gauge tap 71 being electrically connected to controller 7 is also installed on shell 1 for controlling burner 5 sparkings and controlling the controller 7 that air exhauster 6 is worked.Controller 7 and gauge tap 71 are set, can conveniently control the work of this energy conservation boiling container, open in time, regulate and close, to control the temperature of inner bag 2.

Further, this energy conservation boiling container also comprises the wind chamber 61 being connected with the entrance of air exhauster 6, and the opposite end of heat exchanger tube 4 is connected with combustion chamber 36 and wind chamber 61 respectively.Wind chamber 61 is set, is convenient to concentrate waste gas, facilitate air exhauster 6 to extract out.In the present embodiment, wind chamber 61 is arranged in Heat Room 33.In other embodiment, wind chamber 61 also can be arranged on outside Heat Room 33.

Further, this energy conservation boiling container also comprises row's soup pipe (not shown) and soup-draining valve 23, and the bottom of inner bag 2 offers row's soup mouth 22, and soup-draining valve 23 is installed on shell 1, and the opposite end of row's soup pipe is connected with soup-draining valve 23 with row's soup mouth 22 respectively.The row's of setting soup pipe, can discharge the boiling material in inner bag 2 easily, thereby can inner bag 2 volumes be made relatively large.Be specially, row's soup pipe is connected with soup-draining valve 23 through Heat Room 33.Soup-draining valve 23 is for the break-make of the row's of control soup pipe, to control the discharge of boiling material in inner bag 2.

Further, this energy conservation boiling container also comprises the heat-insulation layer 8 of being made by insulation material, and heat-insulation layer 8 is between shell 1 and inner bag 2.Between shell 1 and inner bag 2, heat-insulation layer 8 is set, can further reduces distributing of heat in inner bag 2, improve heat utilization efficiency.For further reducing dissipation of heat in inner bag 2, cover plate (not shown) can also be set, to be placed on inner bag 2.Further, the bottom of inner bag 2 is also provided with for improving the reinforcement 21 of these inner bag 2 bottom strengths.To prevent inner bag 2 distortion.The bottom of shell 1 can also arrange feet 11, to place this energy conservation boiling container.On shell 1, be also provided with handle 12, to facilitate mobile this energy conservation boiling container.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. an energy conservation boiling container, comprise for the inner bag of splendid attire boiling material with for generation of the burner of calory burning, it is characterized in that, also comprise shell, be encircled into the heat-insulating base of Heat Room with the bottom of described inner bag and heat exchanger tube that the calory burning that produces for described burner passes through; Described inner bag and described heat-insulating base are all installed in described shell, and described heat exchanger tube is installed in described Heat Room; Described burner is connected with described heat-insulating base, is provided with the heat conduction cover being connected with described heat-insulating base in described Heat Room; Described heat conduction cover and described heat-insulating base are encircled into combustion chamber, and described combustion chamber is stretched into through described heat-insulating base in the top of described burner; One end of described heat exchanger tube is connected with described combustion chamber, and its relative other end communicates with the external world; In described Heat Room, outside described combustion chamber, be also filled with solid conductive heat particle.

2. energy conservation boiling container as claimed in claim 1, it is characterized in that, described heat-insulating base comprises heat insulation bottom board and around the heat insulation sidewall of described heat insulation bottom board, described heat insulation bottom board be located at described inner bag below and with the bottom interval setting of this inner bag, described heat insulation sidewall is located on described heat insulation bottom board and around described inner bag bottom, described heat conduction cover is connected with described heat insulation bottom board, and described burner is through described heat insulation bottom board.

3. energy conservation boiling container as claimed in claim 2, it is characterized in that, described heat conduction cover comprises heat conduction top board and supports the heat conduction side plate of described heat conduction top board, described burner top is located at described heat conduction top board interval, and described heat conduction side plate is fixed on described heat insulation bottom board and around described heat conduction top board.

4. the energy conservation boiling container as described in claim 1-3 any one, is characterized in that, described heat exchanger tube coils in described Heat Room.

5. the energy conservation boiling container as described in claim 1-3 any one, it is characterized in that, also comprise for extracting the air exhauster of described heat exchanger tube burnt gas out, described air exhauster is located at the outside of described heat-insulating base, the entrance of described air exhauster is connected with described heat exchanger tube, and the outlet of described air exhauster is connected with the external world.

6. energy conservation boiling container as claimed in claim 5, it is characterized in that, also comprise the controller of striking sparks and controlling described air exhauster work for controlling described burner, described controller is installed in described shell, and the gauge tap being electrically connected to described controller is also installed on described shell.

7. energy conservation boiling container as claimed in claim 5, is characterized in that, also comprises the wind chamber being connected with the entrance of described air exhauster, and the opposite end of described heat exchanger tube is connected with described combustion chamber and described wind chamber respectively.

8. the energy conservation boiling container as described in claim 1-3 any one, it is characterized in that, also comprise row's soup pipe and soup-draining valve, the bottom of described inner bag offers Pai Tangkou, described soup-draining valve is installed on described shell, and the opposite end of described row's soup pipe is connected with described soup-draining valve with described row's soup mouth respectively.

9. the energy conservation boiling container as described in claim 1-3 any one, is characterized in that, also comprises the heat-insulation layer of being made by insulation material, and described heat-insulation layer is between described shell and described inner bag.

10. the energy conservation boiling container as described in claim 1-3 any one, is characterized in that, the bottom of described inner bag is also provided with for improving the reinforcement of this inner bag bottom strength.