CN209923271U - Cooking pan using biomass gas as heat energy - Google Patents

Abstract

The utility model discloses a cooking boiler taking biomass gas as heat energy, the side wall of the boiler body is provided with a hearth opening and an exhaust opening, a pipeline type hearth and a heating pipe which are communicated with the hearth opening and the exhaust opening are arranged in the boiler body, the heating pipe is S-shaped, and the exhaust opening is connected with a negative pressure fan; in the implementation of the utility model, the heat in the waste gas is fully utilized; water is injected into the pot body, waste gas carrying a large amount of heat enters the pipeline type hearth through the hearth opening, is condensed in the pipeline, and the ash removing opening is opened to remove condensed solid substances; the biomass gas that burns in the pipe-type furnace thorax gives off the heat to the water of the internal pot, and waste gas continues to get into in the heating tube, gives off the heat to the water of the internal pot, and the heating tube is the S-shaped, increases heat radiating area, and the bent part plays the effect that slows down waste gas flow velocity simultaneously, increases waste gas to the radiating time of water.

Description

Cooking pan using biomass gas as heat energy

Technical Field

The utility model relates to an energy-conserving firing equipment field, concretely relates to boiling pan that living beings gas is heat energy.

Background

Waste heat generated by a biomass gasification furnace and the like is often directly discharged into the atmosphere, and heat in the waste gas is wasted, and thermal pollution is caused to affect the surrounding ecology.

In the patent with publication number CN2227810Y, a waste heat utilization boiler for an industrial converter is disclosed, which consists of two major parts, namely a furnace wall (13) and a furnace core (15), wherein the furnace core (15) consists of a boiler barrel (4), a tube nest (7), a header (9) and a downcomer (8), and is characterized in that: the furnace wall (13) is built by refractory materials and encloses a furnace core (15), and the structure of the furnace core is as follows: two headers (9) parallel to the drum (4) are arranged at two sides below the horizontal drum (4), a tube array (7) and a down pipe (8) are vertically welded between the drum (4) and the headers (9), and the upper end and the lower end of each tube of the tube array (7) and the down pipe (8) are respectively communicated with the inner cavities of the drum (4) and the headers (9) to form a heat exchange circulating system. In the mode, the waste gas carrying heat directly flows out after entering the tubes, and the utilization efficiency of the heat is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned problem that exists among the prior art, provide a boiling pan that living beings gas is heat energy, the heat in the make full use of waste gas.

In order to realize the technical purpose, the technical effect is achieved, the utility model discloses a realize through following technical scheme:

a cooking pot using biomass gas as heat energy comprises a pot body, wherein a hearth opening and an exhaust opening are formed in the side wall of the pot body, a pipeline type hearth and a heating pipe which are communicated with the hearth opening and the exhaust opening are arranged in the pot body, and the heating pipe is S-shaped;

the exhaust port is connected with a negative pressure fan.

Further, the sectional area of the pipeline type hearth is larger than that of the heating pipe.

Furthermore, an ash cleaning port is arranged at the bending part of the heating pipe;

water is injected into the pot body, waste gas carrying a large amount of heat enters the pipeline type hearth through the hearth opening, is condensed inside the pipeline, and the ash removing opening is opened to remove condensed solid substances.

Furthermore, a flow rate limiter is arranged between the negative pressure fans connected with the exhaust port.

The biomass gas that burns in the pipe-type furnace thorax gives off the heat to the water of the internal pot, and waste gas continues to get into in the heating tube, gives off the heat to the water of the internal pot, and the heating tube is the S-shaped, increases heat radiating area, and the bent part plays the effect that slows down waste gas flow velocity simultaneously, increases waste gas to the radiating time of water. When the device operates, the exhaust port is connected with a negative pressure fan, and the waste gas after heat dissipation is pumped out when gas in the pipeline type hearth or the heating pipe flows smoothly.

Further, the flow rate limiter comprises a tubular valve body communicated with the exhaust port, a round wind shield is arranged inside the valve body, a rotating shaft is fixed at the top end of the valve body, a handle fixed at the top end of the wind shield penetrates through the rotating shaft, and a pin body penetrated by the handle is connected with a fixing hole of the air volume adjusting plate in an inserting mode.

Further, the air volume adjusting plate is fixed to the outer wall of the valve body.

Further, the air adjusting plate is fixed to the outer wall of the rotating shaft.

Furthermore, the air regulation plate is fan-shaped, and fixing holes are uniformly formed in the edge.

Further, the handle is L-shaped and comprises a rotating pin fixed with the wind deflector vertically and a horizontal cross rod.

Further, a ball is fixed at the tail end of the handle.

The utility model discloses a income effect is:

the heat in the waste gas is fully utilized; water is injected into the pot body, waste gas carrying a large amount of heat enters the pipeline type hearth through the hearth opening, and the ash cleaning opening is opened to clean condensed solid substances; the biomass gas that burns in the pipe-type furnace thorax gives off the heat to the water of the internal pot, and waste gas continues to get into in the heating tube, gives off the heat to the water of the internal pot, and the heating tube is the S-shaped, increases heat radiating area, and the bent part plays the effect that slows down waste gas flow velocity simultaneously, increases waste gas to the radiating time of water. When the device operates, the exhaust port is connected with a negative pressure fan, and the waste gas after heat dissipation is pumped out when gas in the pipeline type hearth or the heating pipe flows smoothly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the pan body of the present invention;

FIG. 2 is a schematic view of the ducted hearth and heating tubes of the present invention;

FIG. 3 is a schematic cross-sectional view of a flow restrictor according to the present invention;

FIG. 4 is a schematic view showing a state where the handle is combined with the airflow adjusting plate according to the present invention;

fig. 5 is a schematic view of the flow restrictor of the present invention reducing the amount of ventilation.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-5, the utility model discloses a:

a cooking pot taking biomass gas as heat energy comprises a pot body 1, wherein a hearth opening 11 and an exhaust opening 12 are formed in the side wall of the pot body 1, a pipeline type hearth 2 and a heating pipe 3 which are communicated with the hearth opening 11 and the exhaust opening 12 are arranged in the pot body 1, and the heating pipe 3 is S-shaped;

the exhaust port 12 is connected with a negative pressure fan 4.

Preferably, the sectional area of the ducted hearth 2 is larger than that of the heating tube 3.

Preferably, the bending part of the heating pipe 3 is provided with an ash cleaning port 6;

water is injected into the pot body 1, waste gas carrying a large amount of heat enters the pipeline type hearth 2 through the hearth opening 11, the waste gas is condensed in the pipeline, and the ash removing opening 6 is opened to remove condensed solid substances.

Preferably, a flow rate limiter 5 is arranged between the negative pressure fan 4 connected with the exhaust port 12.

The gaseous biomass of burning in pipeline formula furnace 2 gives off the heat to the water of the pot body 1, and waste gas continues to get into in the heating pipe 3, gives off the heat to the water of the pot body 1, and heating pipe 3 is the S-shaped, increases heat radiating area, and the bent part plays the effect that slows down waste gas flow velocity simultaneously, increases waste gas to the radiating time of water. When the device is operated, the exhaust port 12 is connected with the negative pressure fan 4, and the waste gas after heat dissipation is extracted when gas in the pipeline type hearth 2 or the heating pipe 3 flows unsmoothly.

Preferably, the flow rate limiter 5 comprises a tubular valve body 51 communicated with the exhaust port 12, a circular wind shield 52 is arranged inside the valve body 51, a rotating shaft 53 is fixed at the top end of the valve body 51, a handle 54 fixed with the top end of the wind shield 52 penetrates through the rotating shaft 53, and a pin body 56 penetrated by the handle 54 is inserted into a fixing hole 551 of the air volume adjusting plate 55.

Preferably, the air volume adjusting plate 55 is fixed to the outer wall of the valve body 51.

Preferably, the air quantity adjusting plate 55 is fixed to the outer wall of the rotation shaft 53.

Preferably, the airflow adjusting plate 55 is fan-shaped, and the edge thereof is uniformly provided with fixing holes 551.

Preferably, the handle 54 is L-shaped, including a vertical pivot pin 541 fixed to the windshield 52 and a horizontal cross bar 542.

Preferably, a ball 543 is fixed to the end of the handle 54.

One specific application of this embodiment is:

water is injected into the pot body 1, waste gas carrying a large amount of heat enters the pipeline type hearth 2 through the hearth opening 11, the waste gas is condensed in the pipeline, and the ash removing opening 6 is opened to remove condensed solid substances.

The gaseous biomass of burning in pipeline formula furnace 2 gives off the heat to the water of the pot body 1, and waste gas continues to get into in the heating pipe 3, gives off the heat to the water of the pot body 1, and heating pipe 3 is the S-shaped, increases heat radiating area, and the bent part plays the effect that slows down waste gas flow velocity simultaneously, increases waste gas to the radiating time of water. When the device is operated, the exhaust port 12 is connected with the negative pressure fan 4, and the waste gas after heat dissipation is extracted when gas in the pipeline type hearth 2 or the heating pipe 3 flows unsmoothly.

When the device operates, the exhaust port 12 is connected with the negative pressure fan 4, and the waste gas after heat dissipation is extracted when gas in the pipeline type hearth 2 or the heating pipe 3 flows unsmoothly, but in order to avoid low waste gas heat utilization rate caused by too high flow velocity, the flow velocity limiter 5 is required to limit the flow velocity of the gas;

when the air flow rate is too high, the pin body 56 is pulled out, the handle 56 is rotated, the position of the wind shield 52 on the valve body 51 is adjusted, and the ventilation quantity is reduced.

In the above operation, the heat in the exhaust gas is sufficiently utilized as compared with the conventional manner.

In the description herein, references to the terms "one embodiment," "an example," "a specific example," etc., mean 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 invention. 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.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a boiling pan that living beings gas is heat energy which characterized in that: the pot comprises a pot body (1), wherein a hearth opening (11) and an exhaust port (12) are formed in the side wall of the pot body (1), a pipeline type hearth (2) and a heating pipe (3) which are communicated with the hearth opening (11) and the exhaust port (12) are arranged in the pot body (1), and the heating pipe (3) is S-shaped;

the exhaust port (12) is connected with a negative pressure fan (4).

2. The digester using biomass gas as heat energy according to claim 1, wherein: the sectional area of the pipeline type hearth (2) is larger than that of the heating pipe (3).

3. The digester using biomass gas as heat energy according to claim 1, wherein: and an ash cleaning port (6) is arranged at the bending part of the heating pipe (3).

4. The digester using biomass gas as heat energy according to claim 1, wherein: and a flow rate limiter (5) is arranged between the exhaust port (12) and the negative pressure fan (4).

5. The digester using biomass gas as heat energy according to claim 4, wherein: the flow rate limiter (5) comprises a tubular valve body (51) communicated with the exhaust port (12), a circular wind shield (52) is arranged inside the valve body (51), a rotating shaft (53) is fixed at the top end of the valve body (51), a handle (54) fixed with the top end of the wind shield (52) penetrates through the rotating shaft (53), and a pin body (56) penetrated by the handle (54) is inserted into a fixing hole (551) of the air volume adjusting plate (55).

6. The digester using biomass gas as heat energy according to claim 5, wherein: the air volume adjusting plate (55) is fixed to the outer wall of the valve body (51).

7. The digester using biomass gas as heat energy according to claim 5, wherein: the air volume adjusting plate (55) is fixed to the outer wall of the rotating shaft (53).

8. The digester using biomass gas as heat energy according to claim 5, wherein: the air volume adjusting plate (55) is fan-shaped, and fixing holes (551) are uniformly formed in the edge.

9. The digester using biomass gas as heat energy according to claim 5, wherein: the handle (54) is L-shaped and comprises a rotating pin (541) fixed with the wind shield (52) vertically and a horizontal cross bar (542).

10. The digester for biomass gas as heat energy according to claim 5 or 9, characterized in that: a ball body (543) is fixed at the tail end of the handle (54).

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