CN205079280U - Stove system is fried in heat recovery - Google Patents

Abstract

The utility model discloses a stove system is fried in heat recovery includes: combustor, heat exchange device, hot water water storage jar, evaporate pond, hot -blast main, flue gas leading and copper larynx coil pipe, wherein, the combustor passes through the hot -blast main with heat exchange device connects, heat exchange device passes through the flue gas leading with it connects to evaporate the pond, hot water water storage jar lead to pipe with copper larynx coil pipe is connected, wherein, copper larynx coil pipe one end is provided with out the water connection and refutes the mouth, the copper larynx coil pipe other end is provided with the mouth of plugging into that entries, entry plug into mouthful with go out the water connection refute the mouth respectively with water piping connection. The utility model provides a stove system is fried in heat recovery can effectually utilize waste gas to carry out useful use, not only environmental protection, effectively the energy can be saved.

Description

Furnace system is fried in a kind of recuperation of heat

[technical field]

The utility model relates to cooking skill field, and particularly furnace system is fried in a kind of recuperation of heat.

[background technology]

At present, Chinese dishes are delicious due to it, therefore more and more welcome all over the world.Making the Chinese dishes of delicious, is not cooked by Western-style baking oven case, but adopts gas furnace to cook.But, cook is all known to be cooked by gas furnace and can be produced a large amount of heat energy, owing to not collecting the device of heat energy, therefore, these a large amount of heat energy produced just being lost in vain, and can not get the value of recycling, both not environmentally, made again cook feel uncomfortable due to the heat energy produced.

Therefore, be necessary to propose a kind of new technical scheme, to solve the problems of the technologies described above.

[utility model content]

The purpose of this utility model is to provide a kind of recuperation of heat to fry furnace system, be intended to solve being cooked by gas furnace of prior art existence and can produce a large amount of heat energy, owing to not collecting the device of heat energy, therefore, these a large amount of heat energy produced just being lost in vain, and can not get the value of recycling, both not environmentally, made again cook feel uncomfortable problem due to the heat energy produced.

For solving the problem, the technical solution of the utility model is as follows:

Furnace system is fried in a kind of recuperation of heat, and described recuperation of heat is fried furnace system and comprised: combustor, heat-exchange device, hot water water storage cylinder, steaming pond, warm-air pipe, flue gas leading and copper larynx coil pipe; Wherein, described combustor is connected with described heat-exchange device by described warm-air pipe, and described heat-exchange device is connected with described steaming pond by described flue gas leading, and described hot water water storage cylinder is connected with described copper larynx coil pipe by water pipe; Wherein, described copper larynx coil pipe one end is provided with water outlet connecting port, and the described copper larynx coil pipe other end is provided with into water connecting port, enters water connecting port and is connected with water pipe respectively with water outlet connecting port.

Preferably, fry in furnace system in described recuperation of heat, described heat-exchange device comprises: overhead gage, lower baffle plate, branched copper pipe; Wherein, described overhead gage and lower baffle plate are provided with multiple through hole, and the through hole on described overhead gage is corresponding one by one with the through hole on described lower baffle plate, and described copper pipe is through the through hole on the through hole on overhead gage and corresponding described lower baffle plate.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: blower fan;

Described blower fan is connected with described heat-exchange device.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: thermometer;

Described thermometer is arranged in described hot water water storage cylinder.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: attemperator;

Described attemperator is sheathed on described hot water water storage cylinder outer surface.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: temperature control box;

Described temperature control box is arranged at outside described hot water water storage cylinder.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: heat-exchanger pump;

Described heat-exchanger pump is arranged at outside described hot water water storage cylinder.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: combustion chamber, flow guiding disc, frying pan; Described combustion chamber is positioned at above described combustor, and described flow guiding disc is arranged at above described combustion chamber, and described frying pan is positioned over above described flow guiding disc.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: temperature insulation layer, described combustion chamber, described flow guiding disc, described copper larynx coil pipe and described heat-exchange device are all arranged in described temperature insulation layer.

Preferably, fry in furnace system in described recuperation of heat, described recuperation of heat is fried furnace system and is also comprised: pot circle, described pot circle is arranged at above described flow guiding disc.

Hinge structure, furnace system is fried in the recuperation of heat that the utility model provides, the a part of heat energy produced by combustor by heat-exchange device is transferred to combustor burning again, another part heat energy is then for Heated Copper larynx coil pipe, make the water entered in copper larynx coil pipe by water pipe become hot water, be then sent to hot water water storage cylinder, remaining heat energy is then expelled to and steams pond, for heating the water steamed in pond, for food steamer heat food.The recuperation of heat that the utility model provides is fried furnace system and can effectively be utilized waste gas to carry out useful use, not only environmental protection, effectively can also save the energy.Therefore, furnace system is fried in the recuperation of heat that the utility model provides, effectively can solve being cooked by gas furnace of prior art existence and can produce a large amount of heat energy, owing to not collecting the device of heat energy, therefore, these a large amount of heat energy produced just being lost in vain, and can not get the value recycled, both not environmentally, cook is made again to feel uncomfortable problem due to the heat energy produced.

For foregoing of the present utility model can be become apparent, preferred embodiment cited below particularly, and coordinate institute's accompanying drawings, be described in detail below.

[accompanying drawing explanation]

The structural representation of the recuperation of heat stir-fry furnace system that Fig. 1 provides for the utility model embodiment.

The structural representation of the heat-exchange device that Fig. 2 provides for the utility model embodiment.

The structural representation that the heat-exchange device that Fig. 3 provides for the utility model embodiment is combined with combustor.

[detailed description of the invention]

The word " embodiment " that this description uses means to be used as example, example or illustration.In addition, the article " " used in this description and claims usually can be interpreted as meaning " one or more ", unless otherwise or from context clear guiding singulative.

In the utility model, the a part of heat energy produced by combustor by heat-exchange device is transferred to combustor burning again, another part heat energy is then for Heated Copper larynx coil pipe, the water entered in copper larynx coil pipe by water pipe is made to become hot water, then hot water water storage cylinder is sent to, remaining heat energy is then expelled to and steams pond, for heating the water steamed in pond, for food steamer heat food.Therefore, furnace system is fried in the recuperation of heat that the utility model provides, effectively can solve being cooked by gas furnace of prior art existence and can produce a large amount of heat energy, owing to not collecting the device of heat energy, therefore, these a large amount of heat energy produced just being lost in vain, and can not get the value recycled, both not environmentally, cook is made again to feel uncomfortable problem due to the heat energy produced.

In order to technical scheme described in the utility model is described, be described below by specific embodiment.

See also Fig. 1, Fig. 2 and Fig. 3, the structural representation of the recuperation of heat stir-fry furnace system that Fig. 1 provides for the utility model embodiment, the structural representation of the heat-exchange device that Fig. 2 provides for the utility model embodiment, the structural representation that the heat-exchange device that Fig. 3 provides for the utility model embodiment is combined with combustor.For convenience of explanation, illustrate only the part relevant to the utility model embodiment.

Described recuperation of heat is fried furnace system and is mainly comprised: combustor 10, heat-exchange device 11, hot water water storage cylinder 12, steaming pond 13, warm-air pipe 14, flue gas leading 15 and copper larynx coil pipe 27.Wherein, described combustor 10 is connected with described heat-exchange device 11 by described warm-air pipe 14, and described heat-exchange device 11 is connected with described steaming pond 13 by described flue gas leading 15, and described hot water water storage cylinder 12 is connected with described copper larynx coil pipe 27 by water pipe.

In the utility model embodiment, described copper larynx coil pipe 27 one end is provided with water outlet connecting port 270, described copper larynx coil pipe 27 other end is provided with into water connecting port 271, wherein, enter water connecting port 271 to be connected with water pipe respectively with water outlet connecting port 270, running water is fed into copper larynx coil pipe 27, and 400 degree of high-temp waste gas that described combustor 10 produces carry out heat exchange to copper larynx coil pipe 27, make running water heating, be then sent to described hot water water storage cylinder 12.

In the utility model embodiment, the a part of heat energy produced by combustor 10 by heat-exchange device 11 is again transferred to combustor 10 and burns, another part heat energy is then for Heated Copper larynx coil pipe 27, the water entered in copper larynx coil pipe 27 by water pipe is made to become hot water, then hot water water storage cylinder 12 is sent to, remaining heat energy is then expelled to and steams pond 13, for heating the water steamed in pond 13, for food steamer heat food.

In the utility model embodiment, described recuperation of heat is fried furnace system and is also comprised: chimney 16, and described chimney 16 is connected with described steaming pond 13, and namely the last waste gas produced is discharged by described chimney 16.

In the utility model embodiment, described heat-exchange device 11 mainly comprises: overhead gage 110, lower baffle plate 111, branched copper pipe 112.Wherein, described overhead gage 110 and lower baffle plate 111 are provided with multiple through hole, through hole on described overhead gage 110 is corresponding one by one with the through hole on described lower baffle plate 111, and described copper pipe 112 is through the through hole on the through hole on overhead gage 110 and corresponding described lower baffle plate 111.

In the utility model embodiment, described recuperation of heat is fried furnace system and is also comprised: blower fan 17, described blower fan 17 is connected with described heat-exchange device 11, the EGT that described combustor 10 produces is very high, the waste gas of these high-temperatures is dispensed through described copper pipe 112, to make the heating of described copper pipe 112, fresh air is blown into by described blower fan 17, and contact described copper pipe 112 outer wall, because described copper pipe 112 is hot, therefore, after fresh air touches the described copper pipe 112 of heat, the air of heat can be become, have the hot-air of pressure along with warm-air pipe 14 is supplied to described combustor 10, hot-air and combustion gas mixing, contribute to improving combustion thermal efficiency.

As the utility model one preferred embodiment, described recuperation of heat is fried furnace system and is also comprised: thermometer 18, described thermometer 18 is arranged in described hot water water storage cylinder 12, for measuring the hot water temperature in hot water water storage cylinder 12.

As another preferred embodiment of the utility model, described recuperation of heat is fried furnace system and is also comprised: attemperator 19, described attemperator 19 is sheathed on described hot water water storage cylinder 12 outer surface, the temperature that this attemperator 19 can make the hot water in described hot water water storage cylinder 12 keep relative stability within a certain period of time.

As another preferred embodiment of the utility model, described recuperation of heat is fried furnace system and is also comprised: temperature control box 20, described temperature control box 20 is arranged at outside described hot water water storage cylinder 12, the temperature that described temperature control box 20 is discharged for the hot water controlled in described hot water water storage cylinder 12, facilitates user to regulate and control water temperature.

As another preferred embodiment of the utility model, described recuperation of heat is fried furnace system and is also comprised: heat-exchanger pump 21, described heat-exchanger pump 21 is arranged at outside described hot water water storage cylinder 12, when in described hot water water storage cylinder 12 hot water discharge temperature meet not enough user require time, can be heated by described heat-exchanger pump 21.

As another preferred embodiment of the utility model, described recuperation of heat is fried furnace system and is also comprised: combustion chamber 22, flow guiding disc 23, frying pan 24; Described combustion chamber 22 is positioned at above described combustor 10, and described flow guiding disc 23 is arranged at above described combustion chamber 22, and described frying pan 24 is positioned over above described flow guiding disc 23.

In the utility model embodiment, frying pan 24 end and flow guiding disc 23 form actinomorphic fire-tube type shape.At the heat energy that combustion chamber 22 changes into, uniform thermal power is distributed in frying pan 24 end, improves heat energy operating efficiency, heats with food materials material, and the waste gas of the 400 degree of high temperature produced after burning, these high-temp waste gas will be discharged to chimney, to Atmospheric Diffusion by traditional burner.The utility model embodiment is the non-stomidium of the waste gas of 400 degree of high temperature from fire tube, proceeds to bottom flow guiding disc 23, and heat energy continues to heat flow guiding disc 23, and waste gas pushes away downwards by air pressure afterwards, continues the application of waste heat.

As another preferred embodiment of the utility model, described recuperation of heat is fried furnace system and is also comprised: temperature insulation layer 25, described combustion chamber 22, described flow guiding disc 23, described copper larynx coil pipe 27 and described heat-exchange device 11 are all arranged in described temperature insulation layer 25, substantially outside can not be distributed to make the heat energy of generation, but be wrapped in described temperature insulation layer 25, then, heated by heat-exchange device 11 pairs of fresh airs, and the water in copper larynx coil pipe 27 is heated.

As another preferred embodiment of the utility model, described recuperation of heat is fried furnace system and is also comprised: pot circle 26, described pot circle 26 is arranged at above described flow guiding disc 23, owing to adding described pot circle 26, thus the heat energy produced more is enclosed within described temperature insulation layer 25.

In sum, furnace system is fried in the recuperation of heat that the utility model provides, the a part of heat energy produced by combustor by heat-exchange device is transferred to combustor burning again, another part heat energy is then for Heated Copper larynx coil pipe, make the water entered in copper larynx coil pipe by water pipe become hot water, be then sent to hot water water storage cylinder, remaining heat energy is then expelled to and steams pond, for heating the water steamed in pond, for food steamer heat food.The recuperation of heat that the utility model provides is fried furnace system and can effectively be utilized waste gas to carry out useful use, not only environmental protection, effectively can also save the energy.Therefore, furnace system is fried in the recuperation of heat that the utility model provides, effectively can solve being cooked by gas furnace of prior art existence and can produce a large amount of heat energy, owing to not collecting the device of heat energy, therefore, these a large amount of heat energy produced just being lost in vain, and can not get the value recycled, both not environmentally, cook is made again to feel uncomfortable problem due to the heat energy produced.

Although illustrate and describe the utility model relative to one or more implementation, those skilled in the art are based on to the reading of this description and accompanying drawing with understand and will expect equivalent variations and amendment.The utility model comprises all such amendments and modification, and is only limited by the scope of claims.Especially about the various functions performed by said modules, term for describing such assembly is intended to the random component (unless otherwise instructed) corresponding to the appointed function (such as it is functionally of equal value) performing described assembly, even if be not structurally equal to the open structure of the function in the exemplary implementations performing shown in this article description.In addition, although the special characteristic of this description relative in some implementations only one be disclosed, this feature can with can be such as expect and other Feature Combinations one or more of other favourable implementations for given or application-specific.And, " comprise " with regard to term, " having ", " containing " or its distortion be used in detailed description of the invention or claim with regard to, such term is intended to comprise " to comprise " similar mode to term.

In sum; although the utility model discloses as above with preferred embodiment; but above preferred embodiment is also not used to limit the utility model; those of ordinary skill in the art; not departing from spirit and scope of the present utility model; all can do various change and retouching, the scope that therefore protection domain of the present utility model defines with claim is as the criterion.

Claims (10)

1. a furnace system is fried in recuperation of heat, it is characterized in that, described recuperation of heat is fried furnace system and comprised: combustor, heat-exchange device, hot water water storage cylinder, steaming pond, warm-air pipe, flue gas leading and copper larynx coil pipe; Wherein, described combustor is connected with described heat-exchange device by described warm-air pipe, and described heat-exchange device is connected with described steaming pond by described flue gas leading, and described hot water water storage cylinder is connected with described copper larynx coil pipe by water pipe; Wherein, described copper larynx coil pipe one end is provided with water outlet connecting port, and the described copper larynx coil pipe other end is provided with into water connecting port, enters water connecting port and is connected with water pipe respectively with water outlet connecting port.

2. furnace system is fried in recuperation of heat according to claim 1, and it is characterized in that, described heat-exchange device comprises: overhead gage, lower baffle plate, branched copper pipe; Wherein, described overhead gage and lower baffle plate are provided with multiple through hole, and the through hole on described overhead gage is corresponding one by one with the through hole on described lower baffle plate, and described copper pipe is through the through hole on the through hole on overhead gage and corresponding described lower baffle plate.

3. furnace system is fried in recuperation of heat according to claim 1, it is characterized in that, described recuperation of heat is fried furnace system and also comprised: blower fan;

Described blower fan is connected with described heat-exchange device.

4. furnace system is fried in recuperation of heat according to claim 1, it is characterized in that, described recuperation of heat is fried furnace system and also comprised: thermometer;

Described thermometer is arranged in described hot water water storage cylinder.

5. furnace system is fried in recuperation of heat according to claim 1, it is characterized in that, described recuperation of heat is fried furnace system and also comprised: attemperator;

Described attemperator is sheathed on described hot water water storage cylinder outer surface.

6. furnace system is fried in recuperation of heat according to claim 1, it is characterized in that, described recuperation of heat is fried furnace system and also comprised: temperature control box;

Described temperature control box is arranged at outside described hot water water storage cylinder.

7. furnace system is fried in recuperation of heat according to claim 1, it is characterized in that, described recuperation of heat is fried furnace system and also comprised: heat-exchanger pump;

Described heat-exchanger pump is arranged at outside described hot water water storage cylinder.

8. furnace system is fried in recuperation of heat according to claim 1, it is characterized in that, described recuperation of heat is fried furnace system and also comprised: combustion chamber, flow guiding disc, frying pan; Described combustion chamber is positioned at above described combustor, and described flow guiding disc is arranged at above described combustion chamber, and described frying pan is positioned over above described flow guiding disc.

9. furnace system is fried in recuperation of heat according to claim 8, it is characterized in that, described recuperation of heat is fried furnace system and is also comprised: temperature insulation layer, described combustion chamber, described flow guiding disc, described copper larynx coil pipe and described heat-exchange device are all arranged in described temperature insulation layer.

10. furnace system is fried in recuperation of heat according to claim 8, it is characterized in that, described recuperation of heat is fried furnace system and also comprised: pot circle, described pot circle is arranged at above described flow guiding disc.