CN209744440U - Heat collecting support for gas stove and gas stove - Google Patents

Abstract

the utility model provides a heat-collecting support for a gas stove and the gas stove, the heat-collecting support comprises a supporting wall, a supporting plane is formed at the top end of the supporting wall, an air inlet matched with a burner of the gas stove is formed on the supporting wall, an air outlet is formed on the supporting plane, and the air inlet and the air outlet form a baffling oxygen supply channel in the heat-collecting support and outside the burner of the gas stove; compared with the prior art, the heat-collecting support forms a baffled oxygen supply and exhaust channel, so that the gas is combusted more fully, the generation of harmful substances such as CO and the like is reduced, the heat loss is reduced, and the combustion efficiency is improved; and the heat-collecting support is internally provided with a heat-insulating cavity by the flow guide surface, so that heat exchange between the outside of the heat-collecting support and the inside of the heat-collecting support is isolated, and the heat-collecting effect of the heat-collecting support is improved.

Description

heat collecting support for gas stove and gas stove

Technical Field

The utility model belongs to the technical field of kitchen appliance, especially, relate to a gas-cooker is with gathering heat support and gas-cooker.

Background

In modern society, most families use gas stoves, and the gas stoves make cooking convenient and safe, and greatly improve people's daily life.

When the gas stove is used, a pot rack for supporting a pot is arranged between the gas stove and the pot, and the gas stove is mainly divided into a stainless steel pot rack, an enamel pot rack and a cast iron pot rack: the stainless steel pot frame is formed by welding metal, the surface layer can change color when heated at high temperature for a long time, and the color can be deepened along with the lengthening of time, and the stainless steel pot frame is formed by gradually oxidizing and rusting along with the high temperature for a long time at the welding position of the frame support and the frame seat until the stainless steel pot frame is detached and falls off; the surface layer of the enamel pot frame is provided with an enamel treatment technology, so that the enamel pot frame cannot rust and corrode, is extremely hard in texture and is convenient and fast to clean, but the enamel pot frame cannot resist falling, metal in the enamel pot frame can be exposed once the enamel pot frame falls, no problem exists in a short period, the time is long, and the welding part of the frame support and the frame base can be gradually oxidized and rusted along with long-time high temperature until the enamel pot frame falls off after being off-line; the surface layer of the cast iron pot frame is treated by ferroferric oxide, so that the cast iron pot frame has the advantages of high heat return, rust-free effect, gray and black appearance, integral formation, no welding spot, concave-convex feeling (roughness) when touching hands, slightly large volume and heavier weight.

the pot racks have the following problems: 1. the pot frame only plays a role of supporting the pot, and a large part of heat is lost from the middle gap of the pot; 2. the heat in the cooker is conducted to the cooker water tray and the panel through the cooker frame to be lost; 3. the waste gas after the combustion of the fuel gas is not isolated from the air required in the combustion process, and the oxygen supplementing effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a overcome the defect among the above-mentioned prior art, provide a high-efficient oxygen suppliment, district separate waste gas and air, reduce the scattered heat gathering support of heat and contain this gas-cooker of gathering heat support.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a gather hot support, it includes the support wall to gather hot support, the top of support wall is formed with the supporting plane, set up the air inlet that matches with the combustor of gas-cooker on the support wall, the gas outlet has been seted up on the supporting plane, the air inlet forms the oxygen suppliment exhaust passage of baffling with the gas outlet in gathering hot support, the combustor appearance of gas-cooker.

As a preferred scheme of the utility model, gather hot support still include by the flow guide face that the support plane's outer periphery gathered hot support center and extends, the flow guide forms towards the extension end that gathers hot support center and extends the gas outlet, the flow guide face with form thermal-insulated chamber between the support wall.

As an optimized scheme of the utility model, the height of gas outlet is not higher than the supporting plane height, just the water conservancy diversion is personally submitted and is set for inclination's inclined plane or recessed cambered surface, the heat chamber is gathered in the formation of water conservancy diversion face top.

As an optimized scheme of the utility model, the air inlet is in circumference equipartition on the supporting wall, just the air inlet is located one side that the supporting plane was kept away from to the supporting wall.

as a preferred scheme of the utility model, the air inlet is adjacent both sides contained angle and is not the right-angled parallelogram, parallelogram has and is on a parallel with supporting plane's topside and base.

As a preferred embodiment of the present invention, the height of the top side of the parallelogram is not higher than the gas outlet, the parallelogram further has a side edge connecting the top side and the bottom side, and the included angle between the side edge and the horizontal plane passing through the bottom side is 20-80 °.

The utility model provides a gas-cooker, includes the heat gathering support of the kitchen body, combustor, pot frame, gather heat the support with the combustor position matches, just gather heat the support and be located between the kitchen body and the pot frame, the pot frame make the pan with gather between the heat the support form with the outlet channel of gas outlet intercommunication.

As a preferred scheme of the utility model, the combustor has the burning fire hole, the height in burning fire hole is not less than gather hot support's gas outlet, gather hot support still include by the flow guide face that the support plane's periphery gathered hot support center and extend, flow guide face top forms and gathers hot chamber, burning fire hole in gather the burning in the hot chamber.

As an optimized scheme of the utility model, the support wall is cylindricly, the supporting surface is horizontal annular, pot frame location install in on the supporting surface of gathering hot support, be equipped with first location arch and the first constant head tank of mutually supporting between pot frame and the supporting surface, just a plurality of first thermal-insulated bumps of equipartition between supporting surface and the pot frame.

As an optimized scheme of the utility model, fixed mounting has on the kitchen body with the flourishing liquid dish is matchd to the combustor position, gather hot support location install in on the flourishing liquid dish, gather to be equipped with the protruding and second constant head tank in mutually supporting second location between hot support and the flourishing liquid dish, just flourishing liquid dish and gather the thermal-insulated bump of a plurality of seconds of equipartition between the hot support.

The utility model has the advantages that:

(1) The baffled oxygen supply and exhaust channel is arranged, so that the gas is combusted more fully, the generation of harmful substances such as CO and the like is reduced, the heat loss is reduced, and the combustion efficiency is improved;

(2) The heat-collecting support is provided with a heat-collecting cavity, and the heat-collecting cavity is formed in the heat-collecting support by the guide surface, so that heat exchange between the outside of the heat-collecting support and the inside of the heat-collecting support is isolated, and the heat-collecting effect of the heat-collecting support is improved;

(3) A heat collecting cavity is formed above the flow guide surface, so that the gas flowing speed is accelerated, and the heat radiation efficiency of the heat collecting support is improved;

(4) Through the design of the heat insulation convex points, the heat transfer between the pot frame and the heat collection support and between the heat collection support and the stove body is reduced;

(5) When water in the pot overflows, the liquid can flow to the groove of the liquid containing disc along the flow guide surface, so that the pot is convenient for a user to clean.

Drawings

Fig. 1 is a schematic structural view of a heat collecting bracket according to an embodiment of the present invention;

Fig. 2 is a cross-sectional view of a heat collecting bracket according to an embodiment of the present invention;

FIG. 3 is an exploded view of a gas range according to an embodiment of the present invention;

fig. 4 is a partial sectional view of a gas range according to an embodiment of the present invention.

Reference numbers in the figures: the stove comprises a stove body 1, a burner 2, a heat gathering support 3, a support wall 3-1, a support plane 3-2, an air inlet 3-3, an air outlet 3-4, a flow guide surface 3-5, a heat insulation cavity 3-6, a heat gathering cavity 3-7, a first heat insulation bump 3-9, a first positioning groove 3-10, a second positioning groove 3-11, a pot frame 4, a first positioning bulge 4-1, a liquid containing disc 5, a second positioning bulge 5-1, a second heat insulation bump 5-2 and an oxygen supply and exhaust channel 6.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the accompanying drawings.

Example 1:

as shown in the figure 1-2, the heat-collecting support 3 for the gas cooker is characterized in that a supporting wall 3-1 is arranged at the edge of the outer ring of the heat-collecting support 3, the supporting wall 3-1 is vertically arranged, a supporting plane 3-2 is formed at the top end of the supporting wall 3-1, the supporting plane 3-2 is arranged along the top of the supporting wall 3-1, the supporting plane 3-2 and the supporting wall 3-1 are integrally formed, and the supporting wall 3-1 and the supporting wall 3-2 have good stability and firmness. An air inlet 3-3 matched with a burner 2 of a gas stove is arranged on a supporting wall 3-1, an air outlet 3-4 is arranged on a supporting plane 3-2, the air inlet 3-3 and the air outlet 3-4 are arranged in a heat collecting support 3, a baffling oxygen supply and exhaust channel 6 is formed outside the burner 2 of the gas stove, the air inlet 3-3 receives air coming from the outside, the air outlet 3-4 is used for discharging gas after oxygen combustion, the air inlet 3-3 is communicated with the air outlet 3-4, the oxygen supply and exhaust channel 6 is baffled at the combustion position of the burner to form separation and steering of an oxygen supply channel and an exhaust channel, the gas turbulence phenomenon in the heat collecting support 3 is avoided, meanwhile, the temperature of the combusted gas is high and low in density, a rising effect is generated, the air outlet 3-4 enables the exhaust channel to be vertically arranged, and the rising and discharging of, reduce the exhaust pressure loss, do benefit to the oxygen entering, the oxygen passageway of horizontal setting makes the equilibrium of admitting air stable, avoids getting into the disturbance of air current to combustor flame, promotes combustion efficiency.

The air inlet 3-3 is arranged along the horizontal direction, the air outlet 3-4 is arranged along the vertical direction, the air inlet 3-3 is communicated with the air outlet 3-4, the air inlet 3-3 is separated from the air outlet 3-4 by the burner 2, the air flow of the air inlet 3-3 is discharged from the air outlet 3-4 after passing through the burner 2, the air flow flowing into the air inlet 3-3 expands after being heated due to the upward hot air and the principle of expansion and contraction due to heat, the volume of the air flow with the same volume is increased, part of the air flow expands outwards, so that the density of the air flow is reduced, the mass of the heated air flow per unit volume is reduced, the heated air flow flows upwards, the air outlet 3-4 arranged vertically meets the requirement, and the air pressure in the heat collecting support 3 is reduced after the air flow of the air outlet 3-4 is discharged, thereby, air flows from the air inlet 3-3 to the inside, and circulation of the air flows inside the air inlet 3-3 and the air outlet 3-4 is realized. The heat gathering support 3 further comprises a guide surface 3-5 extending from the periphery of the support plane 3-2 to the center of the heat gathering support 3, an extending tail end of the guide surface 3-5 extending to the center of the heat gathering support 3 forms an air outlet 3-4, and a heat insulation cavity 3-6 is formed between the guide surface 3-5 and the support wall 3-1. In the embodiment, the flow guide surface 3-5, the support plane 3-2 and the support wall 3-1 are of an integrally formed structure.

the height of the air outlet 3-4 is not higher than that of the support plane 3-2, in this embodiment, the flow guide plane 3-5 is an inclined plane extending obliquely downward from the edge of the support wall 3-1, an included angle β between the flow guide plane 3-5 and the horizontal plane is 30 ° to 60 °, in this embodiment, β is preferably 40 °, and as other embodiments, β may also be selected from angles of 35 °, 45 °, 55 °, and the like. The heat collecting cavities 3-7 are formed above the flow guide surfaces, the heat collecting cavities 3-7 and the heat insulation cavities 3-6 are positioned at two sides of the flow guide surfaces 3-5, the gas enters the heat collecting cavities 3-7 through the gas outlets 3-4 after being combusted by the combustor, the volume of the gas generated after passing through the gas outlets 3-4 is enlarged due to the inclined arrangement of the flow guide surfaces 3-5, the gas flowing speed is accelerated, meanwhile, heat energy is diffused to the heat collecting cavities 3-7, the temperature in the heat collecting cavities 3-7 is obviously higher than the external temperature under the heat insulation effect of the heat insulation cavities 3-6, the heat collecting cavities 3-7 formed by the downward inclined arrangement of the flow guide surfaces 3-5 increase the heat radiation area of the gas flow heated by the combustor 2 between the heat collecting support 3 and the cooker, and therefore the cooker can absorb more heat, improve the heating effect to the pan, promote the heat utilization.

in this embodiment, the heat collecting support 3 is a hollow circular ring structure, the support plane 3-2 is a closed circular ring structure, and the flow guide plane 3-5 is an annular ring structure with an inward downward inclination. The air inlets 3-3 are circumferentially and uniformly distributed on the supporting wall 3-1, and the air inlets 3-3 are positioned on one side of the supporting wall 3-1 far away from the supporting plane 3-2. The air inlet 3-3 is positioned at the lower part of the supporting wall 3-1, so that a certain distance is formed between the air inlet 3-3 and the supporting plane 3-2, the air flow of the air inlet 3-3 is prevented from being disturbed by hot air overflowing from the supporting plane 3-2 in the heat collecting cavity 3-7, and the air inlet stability and the oxygen content of the air inlet 3-3 are ensured. The air inlet 3-3 is a parallelogram with two adjacent sides having an included angle different from a right angle, and the parallelogram has a top side and a bottom side parallel to the support plane 3-2. The parallelogram is also provided with a side edge connected with the top edge and the bottom edge, the air inlet 3-3 is the parallelogram with the top edge and the bottom edge parallel to the supporting plane 3-2, and the side edge connected with the top edge and the bottom edge is obliquely arranged, so that the transverse air inlet width of the air inlet is enlarged under the condition that the area of a single air inlet is certain, because the fire holes of the combustor are circumferentially arranged, the transverse air inlet width is favorable for balanced air supply of the fire holes circumferentially arranged, the phenomenon of insufficient combustion or air inlet turbulence generated in the heat gathering support 3 is avoided, and the combustion efficiency of the heat gathering support 3 is improved. The height of parallelogram topside is not higher than gas outlet 3-4, makes the oxygen suppliment exhaust passage 6 of the baffling that forms between air inlet 3-3 and the gas outlet 3-4 be located the below of thermal-insulated chamber 3-6 completely, avoids the air current to get into the produced air current vortex of thermal-insulated chamber 3-6, reduces the energy consumption of admitting air, in the utility model discloses, the contained angle alpha of side and horizontal plane is 20 ~ 80, and preferred alpha is 60 in this embodiment.

The air inlet 3-3 is composed of a plurality of parallelograms surrounding the outer wall of the support wall 3-1, the parallelograms are located on the same horizontal plane, the number of the parallelograms is designed according to actual needs, the more parallelograms enable the size of the air inlet 3-3 to be larger, so that air inlet of the air inlet 3-3 is facilitated, and the fewer parallelograms enable the heat gathering support 3 to have better strength, so that the heat gathering support 3 can support a cookware conveniently.

Example 2:

As shown in fig. 3-4, the utility model also provides a gas stove, including the kitchen body 1, combustor 2, pot frame 4 and gather hot support 3, gather hot support 3 and the 2 position matching of combustor, and gather hot support 3 and be located between the kitchen body 1 and pot frame 4, pot frame 4 makes the pan and gather and form the air outlet channel who communicates with gas outlet 3-4 between the hot support 3.

The burner 2 is positioned on the stove body 1, the position of the burner 2 is determined according to the structure of the stove body 1, the positions of the stove body 1, the burner 2, the heat-collecting support 3 and the pot frame 4 are sequentially arranged from bottom to top, and the bottom of the pot frame 4 is abutted against the top of the heat-collecting support 3.

The air inlet 3-3 is arranged along the horizontal direction, the air outlet 3-4 is arranged along the vertical direction, the air inlet 3-3 is communicated with the air outlet 3-4, the air inlet 3-3 is separated from the air outlet 3-4 by the burner 2, the air flow of the air inlet 3-3 is discharged from the air outlet 3-4 after passing through the burner 2, the air flow flowing into the air inlet 3-3 expands after being heated due to the upward hot air and the principle of expansion and contraction due to heat, the volume of the air flow with the same volume is increased, part of the air flow expands outwards, so that the density of the air flow is reduced, the mass of the heated air flow per unit volume is reduced, the heated air flow flows upwards, the air outlet 3-4 arranged vertically meets the requirement, and the air pressure in the heat collecting support 3 is reduced after the air flow of the air outlet 3-4 is discharged, thereby, air flows from the air inlet 3-3 to the inside, and circulation of the air flows inside the air inlet 3-3 and the air outlet 3-4 is realized.

The height of a combustion fire hole of the combustor 2 is not lower than that of an air outlet 3-4 of the heat gathering support 3, the combustion fire hole of the combustor 2 is combusted in the heat gathering cavity 3-7, the combusted airflow is conveniently discharged along a flow guide surface 3-5 of the air outlet 3-4, meanwhile, the combusted airflow is not contacted with the airflow of the air inlet 3-3, the isolation of cold and hot airflow is realized, the combustion fire hole of the combustor 2 is made to be closer to the flow guide surface 3-5, and the heat gathering of the heat gathering cavity 3-7 by the flow guide surface 3-5 is facilitated.

In the embodiment, the supporting wall is cylindrical, the supporting plane 3-2 is horizontal and annular, the pot frame 4 is positioned and installed on the supporting plane 3-2 of the heat collecting support 3, a first positioning protrusion 4-1 and a first positioning groove 3-10 which are matched with each other are arranged between the pot frame 4 and the supporting plane 3-2, and a plurality of first heat insulation salient points 3-9 are uniformly distributed between the supporting plane 3-2 and the pot frame 4, in the embodiment, the first positioning protrusion 4-1 is positioned at the bottom of the pot frame 4, the first positioning groove 3-10 is positioned on the heat collecting support 3, and when the pot frame 4 is installed on the heat collecting support 3, the first positioning protrusion 4-1 is embedded in the first positioning groove 3-10, so that the fixed connection between the pot frame 4 and the heat collecting support 3 is realized.

meanwhile, the first heat insulation salient points 3-9 are used for supporting the pot frame 4, so that the heat collecting support 3 is not directly conducted to the pot frame 4, and the design of the first heat insulation salient points 3-9 ensures that a gap exists between the pot frame 4 and the supporting plane 3-2, thereby reducing the heat conduction between the pot frame 4 and the supporting plane, reducing the heat loss, reducing the heating speed of the pot frame 4 and ensuring the use safety.

In this embodiment, the stove body 1 is further fixedly provided with a liquid containing disc 5 matched with the burner 2 in position, the heat collecting support 3 is positioned and mounted on the liquid containing disc 5, a second positioning protrusion 5-1 and a second positioning groove 3-11 which are matched with each other are arranged between the heat collecting support 3 and the liquid containing disc 5, and a plurality of second heat insulation salient points 5-2 are uniformly distributed between the liquid containing disc 5 and the heat collecting support 3.

The second positioning bulge 5-1 is positioned at the top of the liquid containing disc 5, the second positioning groove 3-11 is positioned at the bottom of the heat gathering support 3, and when the liquid containing disc 5 is contacted with the heat gathering support 3, the second positioning bulge 5-1 is embedded in the second positioning groove 3-11, so that the liquid containing disc 5 is fixedly connected with the heat gathering support 3.

Meanwhile, the second heat insulation salient points 5-2 are used for supporting the heat collection support 3, gaps exist between the heat collection support 3 and the liquid containing disc 5 due to the design of the second heat insulation salient points 5-2, heat on the heat collection support 3 is reduced from being transferred to the liquid containing disc 5, and the liquid containing disc 5 is in contact with the stove body 1, so that heat obtained by the liquid containing disc 5 is reduced, overheating of the stove body 1 is prevented, the use safety of the stove body 1 is protected, and the safety performance is improved.

Example 3:

The present embodiment differs from embodiment 1 in that: the guide surface is a concave arc surface, and the concave arc surface enables the guide surface to have a guide effect of gathering air flow to the axis, so that heat gathering of the heat gathering cavity is facilitated, and the heat gathering effect is improved.

In this embodiment, in the parallelogram shape formed by the air inlet, the included angle α between the side edge and the horizontal plane may be other angles, such as 25 °, 30 °, 35 °, 40 °, 45 °, 50 °, 55 °, 65 °, 70 °, 75 °, and the like.

The rest of the structure is referred to example 1.

Example 4:

The present embodiment differs from embodiment 1 in that: in this embodiment, the supporting wall is inclined from bottom to top towards the axis direction of the heat collecting support, the inclined supporting wall 3-1 can have better supporting strength, and the taper of the heat insulation cavity is larger, so that the heat insulation effect is better promoted.

in this example, the support wall may have other shapes, such as a square barrel shape, the support plane may have a hollow "return" shape, and the pot holder may have a square shape matching the support plane 3-2. The rest of the structure is referred to example 1.

In the description of the present application, the terms "mounted," "connected," "fixed," and the like are used in a broad sense, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although the embodiments disclosed in the present application are described above, the descriptions are only for the convenience of understanding the present application, and are not intended to limit the present application. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims.

Claims (10)

1. The utility model provides a gas-cooker is with gathering hot support, its characterized in that, gather hot support including the support wall, the top of support wall is formed with the support plane, set up the air inlet that matches with the combustor of gas-cooker on the support wall, the gas outlet has been seted up on the support plane, the air inlet forms the oxygen suppliment exhaust passage of baffling with the gas outlet in gathering hot support, the combustor appearance of gas-cooker.

2. The heat collecting bracket as claimed in claim 1, further comprising a flow guide surface extending from the outer periphery of the support plane to the center of the heat collecting bracket, wherein the flow guide surface forms the air outlet towards the extending end extending to the center of the heat collecting bracket, and a heat insulation cavity is formed between the flow guide surface and the support wall.

3. The heat collecting support according to claim 2, wherein the height of the air outlet is not higher than the height of the supporting plane, the flow guide surface is an inclined surface with a set inclination angle or a concave arc surface, and a heat collecting cavity is formed above the flow guide surface.

4. A heat collecting support according to any one of claims 1 to 3, wherein the air inlets are circumferentially equispaced on the support wall and are located on the side of the support wall remote from the support plane.

5. The heat collecting rack as claimed in claim 4, wherein the air inlets are in the form of a parallelogram with adjacent sides not forming right angles, the parallelogram having a top side and a bottom side parallel to the support plane.

6. The heat collecting rack as claimed in claim 5, wherein the height of the top side of the parallelogram is not higher than the air outlet, the parallelogram further has a side edge connecting the top side and the bottom side, and the angle between the side edge and the horizontal plane passing through the bottom side is 20-80 °.

7. A gas cooker, comprising a cooker body, a burner, a pot frame and the heat-collecting support of any one of the above claims 1-6, wherein the heat-collecting support is matched with the burner in position, the heat-collecting support is positioned between the cooker body and the pot frame, and the pot frame enables a gas outlet channel communicated with the gas outlet to be formed between a cooker and the heat-collecting support.

8. the gas stove of claim 7, wherein the burner has a burning fire hole, the height of the burning fire hole is not lower than the gas outlet of the heat collecting support, the heat collecting support further comprises a flow guide surface extending from the outer periphery of the support plane to the center of the heat collecting support, a heat collecting cavity is formed above the flow guide surface, and the burning fire hole burns in the heat collecting cavity.

9. The gas stove according to claim 7, wherein the supporting wall is cylindrical, the supporting plane is horizontal and annular, the wok stand is positioned and mounted on the supporting plane of the heat collecting support, a first positioning protrusion and a first positioning groove which are matched with each other are arranged between the wok stand and the supporting plane, and a plurality of first heat insulation convex points are uniformly distributed between the supporting plane and the wok stand.

10. The gas stove according to claim 7, wherein a liquid containing disc matched with the burner in position is fixedly installed on the stove body, the heat collecting support is installed on the liquid containing disc in a positioning mode, a second positioning protrusion and a second positioning groove which are matched with each other are arranged between the heat collecting support and the liquid containing disc, and a plurality of second heat insulation convex points are evenly distributed between the liquid containing disc and the heat collecting support.