CN107131530A - A kind of cumulative component and gas-cooker for gas-cooker - Google Patents

Abstract

The invention discloses a kind of cumulative component and gas-cooker for gas-cooker, it is related to kitchen range technical field, provides the oxygen of abundance to improve the thermal efficiency of gas-cooker for gas fuel burning process in gas-cooker.A kind of cumulative component for gas-cooker of the invention, including the first Energy-collecting tray and the second Energy-collecting tray, second Energy-collecting tray is positioned on first Energy-collecting tray, first Energy-collecting tray and second Energy-collecting tray are the loop configuration that from top to bottom diameter is gradually reduced, it is circumferentially spaced between first Energy-collecting tray and second Energy-collecting tray to be provided with multiple fins, one end of the fin is towards the upper edge of first Energy-collecting tray, the other end of the fin is towards the lower edge of first Energy-collecting tray, relatively described first Energy-collecting tray of multiple fins radially deviates in the same direction, the angle of deviation is acute angle.A kind of cumulative component of the present invention is used for the thermal efficiency for improving gas-cooker.

Description

A kind of cumulative component and gas-cooker for gas-cooker

Technical field

The present invention relates to kitchen range technical field, more particularly to a kind of cumulative component and gas-cooker for gas-cooker.

Background technology

Gas-cooker is a kind of conventional kitchen utensils, is generally fired with gases such as liquefied petroleum gas, artificial coal gas or natural gases Material carries out straight fire heating.Existing Some gases kitchen range have Energy-collecting tray, and its thermal efficiency is higher than the gas-cooker without Energy-collecting tray.

Reference picture 1, the cumulative component that prior art is used for gas-cooker includes the first cumulative circle 01, the second cumulative circle 02 and pot Support 03, pan bracket 03 is arranged between the first cumulative circle 01 and the second cumulative circle 02.The first cumulative circle 01 and the second cumulative Circle 02 is the loop configuration from top to bottom shunk, and pan bracket 03 includes annular base 031 and along the circumferentially-spaced arrangement of base 031 Pot leg 032, base 031 is located at the inner side of the first cumulative circle 01, and the second cumulative circle 02 offers and the position pair of pot leg 032 The opening 021 answered, pot leg 032 passes through opening 021, and the upper end of pot leg 032 is higher than the upper surface of the second cumulative circle 02 to prop up Pan is supportted, the gap between the first cumulative circle 01 and the second cumulative circle 02 is provided with rib 04, article adjacent ribs or rib and pot leg Space between 032 forms the heating passage of auxiliary air, and the lower edge of the second cumulative circle 02 is provided with multiple branch vertically downward Spike 022, support feet 022 is supported in the inner side of base 031.

Air is entered in the second cumulative circle 02 by the heating passage in the prior art, and is burnt instead with fuel gas progress Should, because flowing velocity of the air in heating passage is slower, it is impossible to provide the oxygen of abundance for fuel gas in time so that flammable Gas can not fully burn, and cause the thermal efficiency of gas-cooker relatively low.

The content of the invention

Embodiments of the invention provide a kind of cumulative component and gas-cooker for gas-cooker, can be flammable in gas-cooker Gas combustion process provides sufficient oxygen to improve the thermal efficiency of gas-cooker.

To reach above-mentioned purpose, embodiments of the invention are adopted the following technical scheme that：

A kind of cumulative component for gas-cooker, including the first Energy-collecting tray and the second Energy-collecting tray, second Energy-collecting tray are put Be placed on first Energy-collecting tray, first Energy-collecting tray and second Energy-collecting tray be from top to bottom diameter be gradually reduced Loop configuration, it is circumferentially spaced between first Energy-collecting tray and second Energy-collecting tray to be provided with multiple fins, the fin One end towards the upper edge of first Energy-collecting tray, the other end of the fin towards the lower edge of first Energy-collecting tray, Relatively described first Energy-collecting tray of multiple fins radially deviates in the same direction, and the angle of deviation is acute angle.

The embodiment of the invention also discloses a kind of gas-cooker, including cumulative component described above.

Cumulative component and gas-cooker provided in an embodiment of the present invention for gas-cooker, due in the first Energy-collecting tray and second It is circumferentially spaced between Energy-collecting tray that multiple fins, the upper edge of one end the first Energy-collecting tray of direction of fin, other end direction are set The lower edge of first Energy-collecting tray, fin, which will can be divided between the first Energy-collecting tray and the second Energy-collecting tray, multiple from top to bottom to be extended The heating passage of auxiliary air.Because the first Energy-collecting tray and the second Energy-collecting tray are the ring junction that from top to bottom diameter is gradually reduced Structure, and multiple fins radially deviate in the same direction with respect to the first Energy-collecting tray, the angle of deviation is acute angle, so above-mentioned heating Passage is diminishing spirality channel from top to bottom.When outside air is close to spiral heating passage, due to combustion gas Flue-gas temperature around the burner of stove is higher, and surface of the high-temperature flue gas along the second Energy-collecting tray rises, and burner is formed about Certain negative pressure, under suction function, outside air is inhaled into the heating passage between the first Energy-collecting tray and the second Energy-collecting tray, And air after fin contacts with being heated；With being gradually reduced for heating passage, the pressure increase of air stream, speed is accelerated, After tangent line of the air stream along heating passage 4 flows out, multiply air-flow is mixed to form vortex, re-forms upward swirling eddy, enters One step improves the speed of air stream so that more outside airs, which can enter in the first Energy-collecting tray, in the same time is used as secondary sky Gas is used, therefore, and the cumulative component of the embodiment of the present invention can provide the oxygen of abundance for the combustion process of fuel gas in gas-cooker Gas, makes fuel gas fully burn, and CO (carbon monoxide) content, drops low exhaust gas emission, so as to improve effectively in reduction flue gas The thermal efficiency of gas-cooker.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the accompanying drawing used required in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the structural representation for the cumulative component that prior art is used for gas-cooker；

Fig. 2 is the structure broken away view for the cumulative component that the embodiment of the present invention is used for gas-cooker；

Fig. 3 is the top view for the cumulative component that the embodiment of the present invention is used for gas-cooker；

Fig. 4 is Fig. 3 Section A-A figure；

Fig. 5 is the section that the embodiment of the present invention is arranged at for pan bracket in the cumulative component of gas-cooker on the second cumulative circle Schematic diagram；

Fig. 6 is that the embodiment of the present invention is used for the top view of the first Energy-collecting tray in the cumulative component of gas-cooker；

Fig. 7 is Fig. 6 section B-B figure.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.

In the description of the invention, it is to be understood that term " " center ", " on ", " under ", "front", "rear", " left side ", The orientation or position relationship of the instruction such as " right side ", " vertical ", " level ", " top ", " bottom ", " interior ", " outer " are based on shown in the drawings Orientation or position relationship, are for only for ease of the description present invention and simplify description, rather than indicate or imply signified device or Element must have specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.

Cumulative component is provided with many gas-cookers, to improve the efficiency of combustion of gas-cooker, cumulative component can be positioned over combustion On the drip pan of gas kitchen, or it is arranged at the burner periphery of gas-cooker.Gas-cooker provides once empty in heating process by nozzle Gas, is further raising efficiency of combustion, also needs to provide auxiliary air to the fuel gas of gas-cooker.

Embodiment 1, Fig. 2, Fig. 3 are a specific embodiment of the cumulative component that the embodiment of the present invention is used for gas-cooker, this Cumulative component includes the first Energy-collecting tray 1 and the second Energy-collecting tray 2 being positioned on the first Energy-collecting tray 1, the first cumulative in embodiment The Energy-collecting tray 2 of disk 1 and second is the loop configuration that from top to bottom diameter is gradually decreased, the first Energy-collecting tray 1 and the second Energy-collecting tray 2 it Between it is circumferentially spaced be provided with multiple fins 3, one end of fin 3 is towards the upper edge of the first Energy-collecting tray 1, and the other end is towards first The lower edge of Energy-collecting tray 1, multiple fins 3 radially deviate in the same direction with respect to the first Energy-collecting tray 1, and the angle deviateed is sharp Angle, i.e., multiple fins 3 are vertically extending, and the angle of the radial direction of 3 and first Energy-collecting tray of fin 1 is acute angle.

Cumulative component provided in an embodiment of the present invention for gas-cooker, due in the first Energy-collecting tray 1 and the second Energy-collecting tray 2 Between it is circumferentially spaced multiple fins 3 are set, one end of fin 3 is towards the upper edge of the first Energy-collecting tray 1, and the other end is towards first The lower edge of Energy-collecting tray 1, fin 3, which will can be divided between the first Energy-collecting tray 1 and the second Energy-collecting tray 2, multiple from top to bottom to be extended The heating passage 4 of auxiliary air, as shown in Figure 4.Because the first Energy-collecting tray 1 and the second Energy-collecting tray 2 are that from top to bottom diameter is gradually The loop configuration of reduction, and multiple fins 3 radially deviate in the same direction with respect to the first Energy-collecting tray 1, the angle of deviation is acute angle, So above-mentioned heating passage 4 is diminishing spirality channel from top to bottom.When outside air is close to spiral heating During passage 4, because the flue-gas temperature around the burner of gas-cooker is higher, on surface of the high-temperature flue gas along the second Energy-collecting tray 2 Rise, burner is formed about certain negative pressure, under suction function, and outside air is inhaled into the first Energy-collecting tray 1 and the second cumulative In heating passage 4 between disk 2, and air contacted with fin 3 after be heated；With being gradually reduced for heating passage 4, air Flowing pressure increase, speed is accelerated, and after tangent line of the air stream along heating passage 4 flows out, multiply air-flow is mixed to form vortex, then shape Into upward swirling eddy, the speed of air stream is further improved so that more outside airs can be into the in the same time Used in one Energy-collecting tray 1 as auxiliary air, therefore, the cumulative component of the embodiment of the present invention can be fuel gas in gas-cooker Combustion process provides sufficient oxygen, fuel gas is fully burnt, CO content, reduction waste gas row effectively in reduction flue gas Put, so as to improve the thermal efficiency of gas-cooker.

Above-mentioned fin 3 may be disposed at the upper surface of the first Energy-collecting tray 1, may also set up in the lower surface of the second Energy-collecting tray 2. Because in gas-cooker practical application, gas-cooker full load condition heating, the temperature of the first Energy-collecting tray 1 is no more than 200 DEG C, and second gathers Energy disk 2 can be heated to 500 DEG C, so, the second Energy-collecting tray 2 can only be more than 500 DEG C of material, such as cold drawing (i.e. using softening point Cold rolling thin steel, the abbreviation of carbon structural steels cold-reduced sheet) or sand cast iron.If fin 3 to be arranged on to the lower surface of the second Energy-collecting tray 2 When, the Energy-collecting tray 2 of fin 3 and second need to be integrally formed making by sand cast iron, and sand cast iron make the cost of the second Energy-collecting tray 2 compared with Height, and sand cast iron easily pollutes environment in process, it is therefore preferred that fin 3 is arranged on first by the embodiment of the present invention The upper surface of Energy-collecting tray 1, when the second Energy-collecting tray 2 is positioned on the first Energy-collecting tray 1, the upper surface of fin 3 and the second Energy-collecting tray 2 Lower surface against as shown in Fig. 2, Fig. 4 and Fig. 6；The first Energy-collecting tray 1 for being provided with fin 3 can be using aluminium alloy compression casting shaping Make, the second Energy-collecting tray 2 can use lower-cost cold drawing punch forming, reduce processing and material cost.

Based on above-described embodiment, in the embodiment of the present invention the first Energy-collecting tray 1 include upper enclosure 11, cumulative circle 12 and under enclose Circle 13, wherein, upper enclosure 11 is horizontally extending, and lower enclosure 13 vertically extends, the from top to bottom diameter of cumulative circle 12 It is gradually reduced, and the upper edge of cumulative circle 12 connects with upper enclosure 11, the lower edge of cumulative circle 12 connects with lower enclosure 13, and Fin 3 is arranged on cumulative circle 12 and upper enclosure 11, as shown in Figure 2.Only include cumulative circle 12 relative to the first Energy-collecting tray 1 The air that upper enclosure 11 in scheme, the first Energy-collecting tray of the embodiment of the present invention 1 can heat passage 4 to entering has guide effect, After air enters cumulative circle 12, air stream switchs to laminar motion along upper enclosure 11 by turbulent flow, reduces the generation of vortex, so that The resistance of air flow is reduced, and air-flow can slowly be oriented to the burner of gas-cooker by lower enclosure 13, promote filling for fuel gas Divided combustion.

Alternatively, in the axially spaced multiple supporting tables 5 of setting of inwall of lower enclosure 13, supporting table 5 is used to support second Energy-collecting tray 2 so that heating passage 4 in air can be flowed out through the space between supporting table 5, cumulative component go out wind velocity compared with It hurry up.

Above-mentioned supporting table 5 can be the boss for being arranged at the lower inwall of enclosure 13, or extend formed convex down by fin 3 Platform, because the former supporting table 5 may be provided at the exit of heating passage 4, supporting table 5 can form resistance, and supporting table 5 to air stream Separately manufactured with fin 3, process operation is complicated, and the latter's fin 3 and supporting table 5 can one-shot forming, process operation is simple, and Air-flow can be also directed to the burner of gas-cooker, it is therefore preferred that scheme of the supporting table 5 of the embodiment of the present invention using the latter, As shown in Figure 2.

The cumulative component for gas-cooker of the embodiment of the present invention also includes pan bracket 6, and pan bracket 6 is arranged at the first cumulative The top of disk 1, pan bracket 6 includes foundation ring 61 and multiple support feets 62, and one-week interval of multiple support feets 62 along foundation ring 61 is set, And axis extension of the support feet 62 along foundation ring 61, as shown in Fig. 2 and Fig. 4~5, support feet 62 is used to support the pan for needing to heat Or stove.The quantity of support feet 62 is 4~5 in the embodiment of the present invention, is ensureing what is provided strong support for pan or stove On the basis of, reduction pan bracket 6 touches the heat that flue gas is taken away.

Alternatively, the foundation ring 61 of above-mentioned pan bracket 6 is directly arranged on fin 3, and the inside edge of foundation ring 61 is gathered with second Can the upper edge of disk 2 connect, as shown in Figure 4 (arrow show the flow direction of auxiliary air in figure), foundation ring 61 is as forming The part of heating passage 4 of auxiliary air, reduces the volume of the second Energy-collecting tray 2.

Alternatively, reference picture 5 (arrow show the flow direction of auxiliary air in figure), the foundation ring 61 of above-mentioned pan bracket 6 The upper end of the second Energy-collecting tray 2 can be also placed directly in, is only positioned over by the second Energy-collecting tray 2 on the first Energy-collecting tray 1 and forms secondary The heating passage 4 of air, the seal for heating passage 4 more preferably, relative to prior art, reduces the support feet 62 of pan bracket 6 Height, so as to reduce the heat that pan bracket 6 absorbs or taken away, be conducive to improving the thermal efficiency of gas-cooker.

Reference picture 6, the plane of upper end and the axis of the first Energy-collecting tray 1 through fin 3 is the first plane, when the side of fin 3 During for cambered surface, in the embodiment of the present invention tangent line of the upper end of fin 3 and the first plane formation angle α span for 20 °~ 45°；When the surface of fin 3 is plane, the angle α that the bearing of trend of fin of the embodiment of the present invention 3 is formed with the first plane takes It is 20 °~45 ° to be worth scope, it is to avoid α angles are excessive or the too small rotary motion for being unfavorable for forming air-flow, while increasing the resistance of air-flow Power, so as to improve the speed that air stream enters heating passage 4.In addition, the Energy-collecting tray 1 of fin 3 and first in the embodiment of the present invention Angle between surface is acute angle, i.e., fin 3 is obliquely installed in the surface of the first Energy-collecting tray 1, and the section of the above-below direction of fin 3 can For plane, or cambered surface, by the reasonable design to the angle of inclination of fin 3, can further it promote secondary in heating passage 4 Air formation swirling eddy.

In addition, when fin 3 is along excessive height on the upper surface direction of the first Energy-collecting tray 1, cumulative component into This is higher, while the volume of whole cumulative component is larger, causes cost to increase, profile is unsightly；When fin 3 is along perpendicular to first When height on the upper surface direction of Energy-collecting tray 1 is too low, the gap between the first Energy-collecting tray 1 and the second Energy-collecting tray 2 is smaller, and heating is logical Road is too small, is unfavorable for outside air and enters in heating passage.Therefore, in the embodiment of the present invention fin 3 along perpendicular to the first cumulative The height H in the upper surface direction of disk 1 is 6~10mm, as shown in Figure 7.If it is narrow to heat passage 4, i.e., the quantity of fin 3 is excessive, extraneous After air enters, the resistance that air stream is subject to is larger；If heating, passage 4 is excessive, i.e. the quantity of fin 3 is very few, empty in heating passage 4 The pressure of air-flow is small, and speed is slow, is unfavorable for forming swirling eddy, therefore, and the quantity of fin 3 is 6~15 in the embodiment of the present invention It is individual, so that the width of heating passage 4 is maintained in suitable scope.

If upper enclosure 11 is too short, it is impossible to the air stream entered in heating passage 4 is switched to laminar flow by turbulent flow；If upper enclosure 11 Long, then on-way resistance of the air in heating passage 4 is excessive, is unfavorable for the importing of air-flow.Therefore, reference picture 7, the present invention is real The scope for applying in example the width W of enclosure 11 is 10~20mm, to optimize the heating passage 4 of auxiliary air, it is ensured that air blows Go out speed.

Accordingly, if lower enclosure 13 is long, the cost of the first Energy-collecting tray 1 is higher；If lower enclosure 13 is too short, the first Energy-collecting tray 1 support strength is too low.It is therefore preferred that descending the vertically (vertical direction of enclosure 13 in reference picture 5, the embodiment of the present invention Be horizontal direction in figure) length L span be 5~15mm, it is ensured that air at an appropriate angle from heating passage 4 in Blowout, and the next circle has enough support strengths.

The embodiment of the present invention also includes a kind of gas-cooker, including the cumulative component in above-described embodiment, due in this implementation The cumulative component that the gas-cooker of example is installed is identical with the structure provided in each embodiment of above-mentioned cumulative component, therefore the two energy Identical technical problem is enough solved, and reaches identical Expected Results.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (12)

1. a kind of cumulative component for gas-cooker, including the first Energy-collecting tray and the second Energy-collecting tray, it is characterised in that described second Energy-collecting tray is positioned on first Energy-collecting tray, first Energy-collecting tray and second Energy-collecting tray be from top to bottom diameter by Decrescence small loop configuration, it is circumferentially spaced between first Energy-collecting tray and second Energy-collecting tray to be provided with multiple fins, One end of the fin is towards the upper edge of first Energy-collecting tray, and the other end of the fin is towards first Energy-collecting tray Lower edge, relatively described first Energy-collecting tray of multiple fins radially deviates in the same direction, and the angle of deviation is acute angle.

2. the cumulative component according to claim 1 for gas-cooker, it is characterised in that the fin is arranged at described The upper surface of one Energy-collecting tray, the lower surface of the upper surface of the fin and second Energy-collecting tray against.

3. the cumulative component according to claim 1 for gas-cooker, it is characterised in that first Energy-collecting tray includes edge The upper enclosure of horizontal direction extension, the lower enclosure vertically extended and the cumulative circle that from top to bottom diameter is gradually reduced, The upper edge of the cumulative circle connects with the upper enclosure, and the lower edge of the cumulative circle connects with the lower enclosure, the wing Piece is arranged on the cumulative circle and the upper enclosure.

4. the cumulative component according to claim 3 for gas-cooker, it is characterised in that the inwall edge week of the lower enclosure To multiple supporting tables are interval with, the supporting table is used to support second Energy-collecting tray.

5. the cumulative component according to claim 4 for gas-cooker, it is characterised in that the supporting table is by the fin Extension is formed down.

6. according to the cumulative component according to any one of claims 1 to 5 for gas-cooker, it is characterised in that also including setting The pan bracket being placed in above first Energy-collecting tray, the pan bracket includes foundation ring and set along the foundation ring one-week interval Multiple support feets, the support feet towards the foundation ring axis extend.

7. the cumulative component according to claim 6 for gas-cooker, it is characterised in that the foundation ring of the pan bracket is set In on the fin, and the inside edge of the foundation ring connects with the upper edge of second Energy-collecting tray.

8. the cumulative component according to claim 6 for gas-cooker, it is characterised in that place the foundation ring of the pan bracket In the upper end of second Energy-collecting tray.

9. according to the cumulative component according to any one of claims 1 to 5 for gas-cooker, it is characterised in that through the wing The plane of the axis of the upper end of piece and first Energy-collecting tray is the first plane, the tangent line of the fin upper end or the fin Bearing of trend is 20 °~45 ° with the angle span that first plane is formed.

10. the cumulative component for gas-cooker according to any one of claim 3~5, it is characterised in that the upper measurement The width span of circle is 10~20mm.

11. the cumulative component for gas-cooker according to any one of claim 3~5, it is characterised in that enclosed under described The length span of circle vertically is 5~15mm.

12. a kind of gas-cooker, it is characterised in that include the cumulative component any one of the claims 1~11.