CN217209468U - High-efficiency energy-saving smoke-discharging stove - Google Patents

Abstract

The application discloses energy-efficient cooking utensils of discharging fume relates to cooking utensils technical field, including the cooking utensils body, the central position department at cooking utensils body top is provided with the furnace body, the bottom rigidity of furnace body inner chamber has the furnace end, the furnace end is connected with outside gas supply line, the bilateral position symmetry of cooking utensils body inner chamber bottom is fixed with first heat recovery box, and is two sets of first heat recovery box outside is all fixed around being equipped with first heat recovery pipe, and is two sets of first heat recovery pipe upper end position all extends to the inner chamber position of furnace body. When this application makes the high temperature flue gas circulate in the inner chamber of first heat recovery pipe, utilize first heat recovery pipe and make the heat conduction in the high temperature flue gas conduct low temperature aquatic under the heat conduction material effect of first heat recovery box self to utilize the heat heating low temperature water in the high temperature flue gas, can retrieve the heat in the high temperature flue gas, and then be favorable to improving the utilization ratio of the energy.

Description

High-efficiency energy-saving smoke-discharging stove

Technical Field

The application relates to the technical field of cookers, in particular to a high-efficiency energy-saving smoke exhaust cooker.

Background

The cooking utensils are the articles for use of food processing, and the cooking utensils can produce the flue gas because of the incomplete burning of gas when using, and traditional cooking utensils can satisfy people's user demand basically, and in the realization this application in-process, the inventor finds that at least there is the following problem in this technique, and specific problem is as follows:

most of cookers in the market at present have higher heat in flue gas generated during working, high-temperature flue gas can only be discharged, and the heat in the flue gas can not be recycled, so that the energy utilization rate is lower, and the consumption of fuel gas is higher.

SUMMERY OF THE UTILITY MODEL

In order to improve the unable recycle of heat in the flue gas that most cooking utensils produced at the during operation on the above-mentioned existing market for energy utilization is lower, and the higher problem of the consumption of gas, the utility model provides a high-efficient energy-saving cooking utensils of discharging fume.

The application provides a high-efficient energy-saving smoke exhaust stove, adopts following technical scheme:

the utility model provides a high-efficient energy-saving smoke exhaust kitchen range, includes the cooking utensils body, the central point department at cooking utensils body top is provided with the furnace body, the bottom rigidity of furnace body inner chamber has the furnace end, the furnace end is connected with outside gas supply line, the bilateral position symmetry of cooking utensils body inner chamber bottom is fixed with first heat recovery box, and is two sets of first heat recovery box outside is all fixed around being equipped with first heat recovery pipe, and is two sets of first heat recovery pipe upper end position all extends to the inner chamber position of furnace body, and is two sets of first heat recovery pipe bottom position all runs through the outer wall position of cooking utensils body and is fixed with the smoke ventilator, and is two sets of the smoke ventilator is kept away from cooking utensils body one side output and all is fixed with second heat recovery pipe.

Through adopting above-mentioned technical scheme, thereby the gas utilizes the pan of furnace end on the furnace body internal combustion heating furnace body, utilizes the heat conduction material effect of first heat recovery pipe and first heat recovery box down to make the heat transfer in the high temperature flue gas give the low-temperature water in the first heat recovery box to utilize the heat heating low-temperature water in the high temperature flue gas, and then improve thermal utilization ratio.

Optionally, the second heat recovery pipe is a metal flexible hose.

By adopting the technical scheme, the second heat energy recovery pipe can be connected with smoke exhaust pipelines at different positions by utilizing the scalability of the second heat energy recovery pipe.

Optionally, the first heat recovery box body is a heat-conducting metal frame body, and the first heat recovery pipe is a heat-conducting metal hard pipe.

Through adopting above-mentioned technical scheme, utilize the heat conduction material effect of first heat recovery box and first heat recovery pipe to make things convenient for thermal conduction down.

Optionally, the positions of two sides of the top wall of the stove body are fixedly inlaid with water injection pipes which respectively extend to the inner cavities of the two groups of first heat energy recovery boxes, and the top of the outer wall of each water injection pipe is sleeved with a cover body.

Through adopting above-mentioned technical scheme, utilize the water injection pipe to supply low-temperature water, utilize the top of lid closing cap water injection pipe, thereby prevent that other materials in the air from entering into the water injection pipe and polluting low-temperature water.

Optionally, a second heat energy recovery box body is fixed at the middle position of the bottom of the inner cavity of the stove body, the top wall of the second heat energy recovery box body is fixed with the bottom wall of the hearth body, and water circulation assemblies respectively extending to the inner cavities of the two groups of first heat energy recovery box bodies are fixed at the positions of the two sides of the inner cavity of the second heat energy recovery box body.

Through adopting above-mentioned technical scheme, utilize the water cycle subassembly to make the low temperature water circulation in first heat recovery box and the second heat recovery box flow.

Optionally, the hydrologic cycle subassembly includes water pump and second connecting pipe, the water pump is provided with two sets ofly, and is two sets of the both sides position at second heat recovery box inner chamber bottom is fixed to the water pump symmetry, and is two sets of the water pump output all is fixed with the first connecting pipe that extends to two sets of first heat recovery box inner chambers respectively, the second connecting pipe is provided with two sets ofly, and is two sets of the both sides position at second heat recovery box roof is fixed to the second connecting pipe symmetry, and is two sets of second heat recovery box one end is kept away from to the second connecting pipe and extends to the upper end position of two sets of first heat recovery box inner chambers respectively.

Through adopting above-mentioned technical scheme, start the water pump and utilize second connecting pipe and first connecting pipe to make low-temperature water circulation flow in first heat recovery box and second heat recovery box.

Optionally, a transparent observation window is arranged at the middle position of the bottom of the front side wall of the cooker body, the transparent observation window is arranged at the position right in front of the second heat energy recovery box body, a drain pipe penetrating through the front side wall of the cooker body is fixed at one side of the bottom of the inner cavity of the second heat energy recovery box body, and a control valve is arranged outside the drain pipe.

Through adopting above-mentioned technical scheme, utilize the water after the drain pipe discharge heating, utilize transparent observation window can look over the liquid level in the second heat recovery box in real time.

In summary, the present application includes at least one of the following benefits:

when the high-temperature flue gas circulates in the inner cavity of the first heat energy recovery pipe, the heat in the high-temperature flue gas is conducted into the low-temperature water under the action of the heat conducting materials of the first heat energy recovery pipe and the first heat energy recovery box body, so that the heat in the high-temperature flue gas is utilized to heat the low-temperature water, the heat in the high-temperature flue gas can be recovered, and the utilization rate of energy resources is further improved;

when utilizing the high temperature flue gas to heat low temperature water, start two sets of water pumps and make the low temperature water in the second heat recovery box inner chamber pour into the inner chamber of first heat recovery box into through first connecting pipe, the low temperature water in the first heat recovery box inner chamber flows back automatically to the inner chamber of second heat recovery box through the second connecting pipe in, thereby make the water cycle of first heat recovery box and second heat recovery box inner chamber flow, the low temperature water of first heat recovery box of intensive heating and second heat recovery box inner chamber makes temperature evenly distributed at the flow in-process of low temperature water.

Drawings

FIG. 1 is a front view of the internal structure of the present application;

FIG. 2 is a front view of the outer structure of the present application;

fig. 3 is a schematic view of a connection three-dimensional structure of the first heat recovery box, the first heat recovery pipe, the water injection pipe and the cover according to the present application.

In the figure: 1. a first heat recovery tank; 2. a first heat recovery pipe; 3. a smoke exhaust machine; 4. a first connecting pipe; 5. a water pump; 6. a second heat recovery tank; 7. a cooker body; 8. a second heat recovery pipe; 9. a water injection pipe; 10. a hearth body; 11. a furnace end; 12. a second connecting pipe; 13. a cover body; 14. a transparent viewing window; 15. and a water discharge pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1 of the drawings, the present application provides an embodiment: the utility model provides a high-efficient energy-saving smoke exhaust kitchen range, includes cooking utensils body 7, and the central point department at 7 tops of cooking utensils body is provided with furnace body 10, and the bottom rigidity in 10 inner chambers of furnace body has furnace end 11, and furnace end 11 is connected with outside gas supply line.

Please refer to fig. 2 and 3 in the drawings of the specification, first heat recovery box bodies 1 are symmetrically fixed at two side positions of the bottom of an inner cavity of a cooker body 7, the first heat recovery box bodies 1 are heat-conducting metal frame bodies, first heat recovery pipes 2 are fixedly wound outside two groups of the first heat recovery box bodies 1, the first heat recovery pipes 2 are heat-conducting metal hard pipes, upper end positions of the two groups of the first heat recovery pipes 2 extend to the inner cavity position of a hearth body 10, bottom positions of the two groups of the first heat recovery pipes 2 penetrate through the outer wall position of the cooker body 7, smoke blowers 3 are fixed at bottom positions of the two groups of the first heat recovery pipes 2, second heat recovery pipes 8 are fixed at output ends of the two groups of the smoke blowers 3 far away from the cooker body 7, the second heat recovery pipes 8 are connected with an external smoke exhaust pipe, and the second heat recovery pipes 8 are metal flexible hoses.

When using this energy-efficient cooking utensils of discharging fume, place outside pan in furnace body 10 top earlier, be linked together outside gas pipeline and furnace end 11, utilize furnace end 11 to make the gas that the gas pipeline supplied with burn in the inner chamber of furnace body 10 and then heat the pan of furnace body 10 top, be linked together second heat recovery pipe 8 and smoke exhaust pipe this moment, start two sets of induced-draft fans 3 after that and discharge the high temperature flue gas of furnace body 10 inner chamber in smoke exhaust pipe through first heat recovery pipe 2 and second heat recovery pipe 8.

Before discharging fume, when the high temperature flue gas circulates in the inner chamber of the first heat energy recovery pipe 2, the heat in the high temperature flue gas is conducted to the low temperature water under the action of the heat conducting materials of the first heat energy recovery pipe 2 and the first heat energy recovery box body 1, so that the heat in the high temperature flue gas can be recovered by utilizing the heat in the high temperature flue gas to heat the low temperature water, and the utilization rate of energy sources is further improved.

Referring to fig. 3 in the drawings of the specification, water injection pipes 9 are fixedly embedded in both sides of the top wall of the cooker body 7, the two groups of water injection pipes 9 extend to the inner cavity positions of the two groups of first heat recovery case bodies 1, respectively, a cover body 13 is sleeved on the top of the outer wall of each of the two groups of water injection pipes 9, before smoke is exhausted, the cover body 13 is removed to be separated from the water injection pipes 9, and then low-temperature water is injected into the inner cavity of the first heat recovery case body 1 through the water injection pipes 9.

Referring to fig. 1 in the attached drawings of the specification, a second heat energy recovery box body 6 is fixed at the middle position of the bottom of an inner cavity of a stove body 7, the top wall of the second heat energy recovery box body 6 is fixed with the bottom wall of a hearth body 10, water circulation assemblies are fixed at the two sides of the inner cavity of the second heat energy recovery box body 6, the two sets of water circulation assemblies respectively extend to the inner cavity positions of the two sets of first heat energy recovery box bodies 1, each water circulation assembly comprises a water pump 5 and a second connecting pipe 12, the two sets of water pumps 5 are arranged in two sets, the two sets of water pumps 5 are symmetrically fixed at the two sides of the bottom of the inner cavity of the second heat energy recovery box body 6, the output ends of the two sets of water pumps 5 are respectively fixed with first connecting pipes 4, the two sets of first connecting pipes 4 respectively extend to the inner cavity positions of the two sets of first heat energy recovery box bodies 1, the second connecting pipes 12 are symmetrically fixed at the two sides of the top wall of the second heat energy recovery box body 6, one end of the two groups of second connecting pipes 12 far away from the second heat energy recovery box body 6 extends to the upper end positions of the inner cavities of the two groups of first heat energy recovery box bodies 1 respectively.

When utilizing the high temperature flue gas to heat low temperature water, start two sets of water pumps 5 and make the low temperature water in the 6 inner chambers of second heat recovery box pour into the inner chamber of first heat recovery box 1 through first connecting pipe 4 into, the low temperature water in the 1 inner chambers of first heat recovery box flows back to the inner chamber of second heat recovery box 6 through second connecting pipe 12 is automatic, thereby make the water circulation of first heat recovery box 1 and 6 inner chambers of second heat recovery box flow, the low temperature water of the 6 inner chambers of first heat recovery box 1 and second heat recovery box of abundant heating makes the temperature evenly distributed at the flow in-process of low temperature water.

Please refer to fig. 2 in the drawings of the specification, a transparent observation window 14 is arranged at the middle position of the bottom of the front side wall of the cooker body 7, the transparent observation window 14 is arranged at the position right in front of the second heat energy recovery box 6, a drain pipe 15 penetrating through the front side wall of the cooker body 7 is fixed at one side position of the bottom of the inner cavity of the second heat energy recovery box 6, a control valve is arranged outside the drain pipe 15, when the low-temperature water is heated, the control valve is opened to discharge the water through the drain pipe 15, and a worker can conveniently check the liquid level change of the inner cavity of the second heat energy recovery box 6 in real time under the action of the transparent observation window 14.

The working principle is as follows: when using this energy-efficient cooking utensils of discharging fume, place outside pan in furnace body 10 top earlier, be linked together outside gas pipeline and furnace end 11, utilize furnace end 11 to make the gas that the gas pipeline supplied with burn in the inner chamber of furnace body 10 and then heat the pan above furnace body 10, be linked together second heat recovery pipe 8 and exhaust pipe this moment, start two sets of induced-draft fans 3 after that and discharge the high temperature flue gas of furnace body 10 inner chamber into the exhaust pipe through first heat recovery pipe 2 and second heat recovery pipe 8.

Before smoke is discharged, the cover 13 is removed to be separated from the water injection pipe 9, and then low-temperature water is injected into the inner cavity of the first heat recovery tank 1 through the water injection pipe 9.

When the high temperature flue gas circulates in the inner chamber of first heat recovery pipe 2, utilize first heat recovery pipe 2 and make the heat conduction in the high temperature flue gas conduct low temperature aquatic under the heat conduction material effect of first heat recovery box 1 self to utilize the heat heating low temperature water in the high temperature flue gas, can retrieve the heat in the high temperature flue gas, and then be favorable to improving the utilization ratio of the energy.

When utilizing the high temperature flue gas to heat low temperature water, start two sets of water pumps 5 and make the low temperature water in the 6 inner chambers of second heat recovery box pour into the inner chamber of first heat recovery box 1 through first connecting pipe 4 into, the low temperature water in the 1 inner chambers of first heat recovery box flows back to the inner chamber of second heat recovery box 6 through second connecting pipe 12 is automatic, thereby make the water circulation of first heat recovery box 1 and 6 inner chambers of second heat recovery box flow, the low temperature water of the 6 inner chambers of first heat recovery box 1 and second heat recovery box of abundant heating makes the temperature evenly distributed at the flow in-process of low temperature water.

When the low temperature water is heated, the control valve is opened to discharge the water through the drain pipe 15.

The liquid level change of the inner cavity of the second heat energy recovery box body 6 can be conveniently checked by workers in real time under the action of the transparent observation window 14.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a high-efficient energy-saving smoke exhaust cooking utensils, includes cooking utensils body (7), the central position department at cooking utensils body (7) top is provided with furnace body (10), the bottom position of furnace body (10) inner chamber is fixed with furnace end (11), furnace end (11) are connected its characterized in that with outside gas supply line: the utility model discloses a stove body, including stove body (7), both sides position symmetry of inner chamber bottom is fixed with first heat recovery box (1), and is two sets of first heat recovery box (1) outside is all fixed around being equipped with first heat recovery pipe (2), and is two sets of first heat recovery pipe (2) upper end position all extends to the inner chamber position of furnace body (10), and is two sets of outer wall position that stove body (7) were all run through to first heat recovery pipe (2) bottom position just is fixed with smoke ventilator (3), and is two sets of smoke ventilator (3) are kept away from stove body (7) one side output and all are fixed with second heat recovery pipe (8).

2. The efficient energy-saving smoke exhaust cooker according to claim 1, characterized in that: the second heat recovery pipe (8) is a metal telescopic hose.

3. The efficient energy-saving smoke exhaust cooker according to claim 1, characterized in that: the first heat energy recovery box body (1) is a heat conduction metal frame body, and the first heat energy recovery pipes (2) are heat conduction metal hard pipes.

4. The efficient energy-saving smoke exhaust stove according to claim 1, characterized in that: the stove is characterized in that the positions of two sides of the top wall of the stove body (7) are fixedly inlaid with water injection pipes (9) which respectively extend to the inner cavities of the two sets of first heat recovery boxes (1), and the tops of the outer walls of the water injection pipes (9) are sleeved with covers (13).

5. The efficient energy-saving smoke exhaust cooker according to claim 1, characterized in that: the middle position of cooking utensils body (7) inner chamber bottom is fixed with second heat recovery box (6), the diapire position of second heat recovery box (6) roof and furnace body (10) is fixed mutually, second heat recovery box (6) inner chamber both sides position all is fixed with the water cycle subassembly that extends to two sets of first heat recovery box (1) inner chambers respectively.

6. The efficient energy-saving smoke exhaust stove according to claim 5, characterized in that: the water circulation assembly comprises a water pump (5) and a second connecting pipe (12), the water pump (5) is provided with two sets of water pumps (5) which are symmetrically fixed at two side positions of the bottom of an inner cavity of the second heat energy recovery box body (6) and are arranged in two sets, the output end of each water pump (5) is fixedly provided with a first connecting pipe (4) which extends to the inner cavities of the two sets of first heat energy recovery box bodies (1) respectively, the second connecting pipe (12) is provided with two sets of water pumps which are symmetrically fixed at two side positions of the top wall of the second heat energy recovery box body (6) and are arranged in two sets, one end of the second heat energy recovery box body (6) is far away from the second connecting pipe (12) and extends to the upper end positions of the inner cavities of the two sets of first heat energy recovery box bodies (1) respectively.

7. The efficient energy-saving smoke exhaust cooker according to claim 1, characterized in that: the middle position department of cooking utensils body (7) front lateral wall bottom is provided with transparent observation window (14), transparent observation window (14) set up the position in the dead ahead of second heat recovery box (6), one side rigidity of second heat recovery box (6) inner chamber bottom has drain pipe (15) that run through cooking utensils body (7) front lateral wall, drain pipe (15) outside is provided with the control valve.

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