CN211204391U - Burning inner module with heat preservation structure - Google Patents

Abstract

The utility model provides a module in burning with insulation construction, includes the module frame, combustion part, and heat transfer part airs exhaust part and condensation heat transfer part, be equipped with the inner chamber in the module frame, combustion part is installed to the bottom of inner chamber, and heat transfer part sets up the top at combustion part, air exhaust part and condensation heat transfer part set up in the top outside of module frame, air exhaust part respectively with condensation heat transfer part and inner chamber intercommunication, form the combustion chamber between combustion part and the heat transfer part, high temperature resistant heat preservation is installed to the periphery of combustion chamber, and the heat preservation of this structure can reduce the combustion chamber in the heat to scattering and disappearing all around, makes more heats and heat transfer part carry out the heat exchange, has promoted heat exchange efficiency, reduces the quantity of combustion part to the gas and reduces thermal pollution, energy-concervin.

Description

Burning inner module with heat preservation structure

Technical Field

The utility model relates to a burning module stove field specifically is a module in burning with insulation construction.

Background

The module furnace is widely applied to heating large occasions such as hotels, bath centers, swimming pools, residential and business districts and the like, and although the conventional module furnace makes certain progress compared with the conventional boiler, the conventional module furnace still has the condition of low energy efficiency.

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned current problem, provide a simple structure, reasonable a burning inner module with insulation construction, its effect is through the heat preservation reduce the heat in the combustion chamber to scattering and disappearing all around.

The utility model provides a module in burning with insulation construction, includes the module frame, combustion part, and heat transfer part airs exhaust part and condensation heat transfer part, be equipped with the inner chamber in the module frame, combustion part is installed to the bottom of inner chamber, and heat transfer part sets up the top at combustion part, air exhaust part and condensation heat transfer part set up in the top outside of module frame, air exhaust part respectively with condensation heat transfer part and inner chamber intercommunication, form the combustion chamber between combustion part and the heat transfer part, high temperature resistant heat preservation is installed to the periphery of combustion chamber, and the heat preservation of this structure can reduce the combustion chamber in the heat to scattering and disappearing all around, makes more heats and heat transfer part carry out the heat exchange, has promoted heat exchange efficiency, reduces the quantity of combustion part to the gas and reduces thermal pollution, energy-concervin.

The utility model discloses can also adopt following technical measure to solve:

at least four parallel supporting plates are arranged between the combustion component and the heat exchange component, a combustion chamber is formed among the supporting plates, the air exhaust component is communicated with the combustion chamber, and the heat insulation layer is arranged on the inner end surface or the outer end surface of each supporting plate.

The outer side of the combustion chamber is provided with a module outer frame and an outer frame bottom plate, the outer frame bottom plate is installed at the bottom of the module outer frame, a convection passage communicated with the combustion chamber is arranged between the outer frame bottom plate and the combustion part, and the module outer frame is provided with a lower air inlet communicated with the convection passage.

The module frame is formed by the combination of front bezel, back plate and both sides board, and the internal surface of front bezel, back plate and both sides board sets up the heat preservation, constitutes the heat dissipation layer between front bezel, back plate and both sides board and the backup pad, the top of front bezel, back plate and both sides board is equipped with the portion of bending respectively, is equipped with the radiating through-hole on a plurality of intercommunication heat dissipation layer in the portion of bending.

And the inner end surface of the outer frame bottom plate is provided with a heat insulation layer.

The burning part includes that the fire that is arranged the formation by the fire of a plurality of parallel equidistance each other arranges the subassembly and sets up in the integrative ignition needle of arranging the subassembly middle part in the fire, the fire is arranged and is included base and face lid, the face lid covers and connects on the base, and the face is covered and is equipped with the ignition hole, and the ignition hole between the adjacent face lid aligns each other.

The heat exchange component is arranged at the top of the combustion chamber and comprises a plurality of heat exchange water pipes with end parts communicated adjacently, and the length extension direction of the heat exchange water pipes is consistent with the arrangement direction of the fire rows.

The exhaust part comprises an exhaust motor and a volute, the exhaust motor is in transmission connection with a wind wheel in the volute, an air inlet end of the volute is communicated with the combustion chamber, an exhaust end of the volute is communicated with the condensation heat exchange part, and a heat dissipation fan blade is further arranged between the exhaust motor and the volute.

The condensation heat exchange component comprises a plurality of condensate pipes which can be filled with cold water, and the condensate pipes are in a continuous bending shape;

the condensate pipe is vertically arranged relative to the air exhaust direction of the air exhaust component, and the air outlet direction of the condensation heat exchange component is coincided with the arrangement direction of the condensate pipe.

The condensation heat exchange component comprises a shell, a windward baffle is arranged on one side of the shell opposite to the air exhaust end of the air exhaust component, and a heat insulation layer is formed between the windward baffle and the shell.

The utility model has the advantages as follows:

the utility model relates to a module in burning with insulation construction, the heat preservation of this structure can reduce the combustion chamber in the heat to scattering and disappearing all around, makes more heats and heat exchange component carry out the heat exchange, has promoted heat exchange efficiency, reduces the quantity of burning part to the gas and reduces thermal pollution, energy-concerving and environment-protective.

Drawings

Fig. 1 is a schematic sectional view (front view) of the present invention.

Fig. 2 is a schematic view of the exploded structure of the present invention.

Fig. 3 is a schematic sectional view (top view) of the present invention.

Fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Fig. 5 is a schematic sectional view (front view) of the present invention.

Fig. 6 is a schematic structural diagram of the present invention.

Fig. 7 is a schematic top view of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1 to 7, a combustion inner module with a heat insulation structure comprises a module outer frame 1, a combustion part 2, a heat exchange part 3, an air exhaust part 4 and a condensation heat exchange part 5, wherein an inner cavity is arranged in the module outer frame 1, the combustion part 2 is arranged at the bottom of the inner cavity, the heat exchange part 3 is arranged above the combustion part 2, the air exhaust part 4 and the condensation heat exchange part 5 are arranged at the outer side of the top of the module outer frame 1, the air exhaust part 4 is respectively communicated with the condensation heat exchange part 5 and the inner cavity, a combustion chamber 6 is formed between the combustion part 2 and the heat exchange part 3, a high temperature resistant heat insulation layer 7 is arranged at the periphery of the combustion chamber 6, the heat insulation layer of the structure can reduce the heat dissipation in the combustion chamber to the periphery, so that more heat exchange is carried out with the heat exchange part, the heat exchange efficiency, energy conservation and environmental protection.

At least four supporting plates 8 which are parallel to each other are arranged between the combustion component 2 and the heat exchange component 3, a combustion chamber 6 is formed between the supporting plates 8, the air exhaust component 4 is communicated with the combustion chamber 6, the heat insulation layer 7 is arranged on the inner end face or the outer end face of the supporting plate 8, the heat exchange component 2 is detachably connected with the supporting plate 8, and the heat insulation layer provides support, is convenient to install and is simple in structure.

The outside of combustion chamber 6 is equipped with module frame 1 and frame bottom plate 9, and frame bottom plate 9 is installed in the bottom of module frame 1, is equipped with the convection current passageway 10 with combustion chamber 6 intercommunication between frame bottom plate 9 and the combustion unit 2, set up the lower air inlet 11 of intercommunication convection current passageway on the module frame 1, can provide new air for combustion unit 2, make gas combustion more abundant with air mixing, reduce the production of waste gas.

Module frame 1 is formed by the combination of front bezel 13, back plate 14 and both sides board 15, and the internal surface of front bezel 13, back plate 14 and both sides board 15 sets up heat preservation 7, constitutes heat dissipation layer 16 between front bezel 13, back plate 14 and both sides board 15 and the backup pad 8, the top of front bezel 13, back plate 14 and both sides board 15 is equipped with portion of bending 17 respectively, is equipped with the radiating through hole 171 of a plurality of intercommunication heat dissipation layer 16 on the portion of bending 17, can reduce the combustion temperature in the combustion chamber through heat dissipation channel, makes the production that reduces oxynitrides behind the gas combustion, makes the interior module practicality of burning more environmental protection.

The inner end face of the outer frame bottom plate 9 is provided with the heat preservation layer 7, so that heat in the combustion chamber can be further reduced from dissipating to the periphery, and the heat preservation effect is improved.

The combustion part 2 comprises a fire grate assembly formed by a plurality of fire grates 21 which are parallel to each other and distributed at equal intervals and an integral ignition needle 22 arranged in the middle of the fire grate assembly, wherein the fire grate 21 comprises a base 211 and a surface cover 212, the surface cover 212 is connected to the base 211 in a covering mode, the surface cover 212 is provided with ignition holes 2121, and the ignition holes 2121 between the adjacent surface covers 212 are aligned with each other.

The number of the fire rows 21 is twenty-two or twenty-five, and can be adjusted according to actual needs.

The heat exchange component 3 is arranged at the top of the combustion chamber 6, the heat exchange component 3 comprises a plurality of heat exchange water pipes 31 with end parts communicated adjacently, the length extending direction of the heat exchange water pipes 31 is consistent with the arrangement direction of the fire grate 21, the heat exchange area of the heat exchange water pipes 31 can be increased, and the heat exchange efficiency is improved.

The exhaust component 4 comprises an exhaust motor 41 and a volute 42, the exhaust motor 41 is in transmission connection with a wind wheel 43 in the volute 42, an air inlet end 421 of the volute 42 is communicated with the combustion chamber 6, an exhaust end 422 is communicated with the condensation heat exchange component 5, a heat dissipation fan blade 44 is further arranged between the exhaust motor 41 and the volute 42, the exhaust motor 41 drives the wind wheel 43 to rotate and simultaneously drives the heat dissipation fan blade 44 to rotate, air flow generated by the heat dissipation fan blade 44 blows towards the exhaust motor 41, and therefore the exhaust motor 41 is cooled, and the service life of the exhaust motor 41 is prolonged.

The condensation heat exchange part 5 comprises a plurality of condensed water pipes 51 through which cold water can be introduced, and the condensed water pipes 51 are in a continuous bending shape; the contact area of the condensate pipe 51 and the high-temperature flue gas is increased, thereby improving the heat exchange effect.

The condensate pipe 51 is vertically arranged relative to the air exhaust direction of the air exhaust component 4, and the direction of the air outlet 52 of the condensation heat exchange component 5 is coincided with the arrangement direction of the condensate pipe 51, so that high-temperature flue gas turns in the condensation heat exchange component 5, the heat exchange time is prolonged, and the preheating effect is better.

The condensation heat exchange component 5 comprises a shell 53, a windward baffle 54 is arranged on one side of the shell 53 opposite to the air exhaust end 422 of the air exhaust component 4, a heat insulation layer 55 is formed between the windward baffle 54 and the shell 53, when high-temperature flue gas is sprayed out through the air exhaust end 422, the high-temperature flue gas firstly flows to the opposite shell 53, a large amount of heat is dissipated to the outside air through the shell, the temperature of the shell is increased, the windward baffle 54 is additionally arranged on the inner end face to form the heat insulation layer, heat loss can be reduced, and most of the heat of the high-temperature flue gas exchanges heat with water in the condensate pipe 51.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but rather that various changes and modifications may be made without departing from the spirit and scope of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a module in burning with insulation construction, includes module frame (1), combustion part (2), heat transfer part (3), exhaust part (4) and condensation heat transfer part (5), be equipped with the inner chamber in module frame (1), combustion part (2) are installed to the bottom of inner chamber, and heat transfer part (3) set up the top at combustion part (2), exhaust part (4) and condensation heat transfer part (5) set up in the top outside of module frame (1), exhaust part (4) communicate its characterized in that with condensation heat transfer part (5) and inner chamber respectively: and a combustion chamber (6) is formed between the combustion part (2) and the heat exchange part (3), and a high-temperature-resistant heat preservation layer (7) is arranged on the module outer frame (1).

2. The combustion inner module provided with the heat insulation structure as claimed in claim 1, wherein: at least four parallel supporting plates (8) are arranged between the combustion component (2) and the heat exchange component (3), a combustion chamber (6) is formed between the supporting plates (8), the air exhaust component (4) is communicated with the combustion chamber (6), and the heat insulation layer (7) is arranged on the inner end face or the outer end face of each supporting plate (8).

3. The combustion inner module provided with the heat insulation structure as claimed in claim 2, wherein: the outside of combustion chamber (6) is equipped with module frame (1) and frame bottom plate (9), and the bottom at module frame (1) is installed in frame bottom plate (9), is equipped with convection current passageway (10) with combustion chamber (6) intercommunication between frame bottom plate (9) and burning part (2), set up lower air inlet (11) of intercommunication convection current passageway on module frame (1).

4. The combustion inner module provided with the heat insulation structure as claimed in claim 2, wherein: module frame (1) is formed by front bezel (13), back plate (14) and both sides board (15) combination, and the internal surface of front bezel (13), back plate (14) and both sides board (15) sets up heat preservation (7), constitutes heat dissipation layer (16) between front bezel (13), back plate (14) and both sides board (15) and backup pad (8), the top of front bezel (13), back plate (14) and both sides board (15) is equipped with portion of bending (17) respectively, is equipped with heat dissipation through-hole (171) of a plurality of intercommunication heat dissipation layer (16) on portion of bending (17).

5. The combustion inner module provided with the heat insulation structure as claimed in claim 3, wherein: and the inner end surface of the outer frame bottom plate (9) is provided with an insulating layer (7).

6. The combustion inner module provided with the heat insulation structure as claimed in claim 1, wherein: the combustion part (2) comprises a fire grate assembly formed by a plurality of fire grates (21) which are parallel to each other and distributed at equal intervals and an integrated ignition needle (22) arranged in the middle of the fire grate assembly, each fire grate (21) comprises a base (211) and a face cover (212), the face covers (212) are connected to the bases (211) in a covering mode, fire holes (2121) are formed in the face covers (212), and the fire holes (2121) between the adjacent face covers (212) are aligned with each other.

7. The combustion inner module provided with the heat insulation structure as claimed in claim 6, wherein: the heat exchange component (3) is arranged at the top of the combustion chamber (6), the heat exchange component (3) comprises a plurality of heat exchange water pipes (31) with the end parts communicated adjacently, and the length extension direction of the heat exchange water pipes (31) is consistent with the arrangement direction of the fire grate (21).

8. The combustion inner module provided with the heat insulation structure as claimed in claim 2, wherein: the exhaust component (4) comprises an exhaust motor (41) and a volute (42), the exhaust motor (41) is in transmission connection with a wind wheel (43) in the volute (42), an air inlet end (421) of the volute (42) is communicated with the combustion chamber (6), an exhaust end (422) is communicated with the condensation heat exchange component (5), and a heat dissipation fan blade (44) is further arranged between the exhaust motor (41) and the volute (42).

9. The combustion inner module provided with the heat insulation structure as claimed in claim 1, wherein: the condensation heat exchange component (5) comprises a plurality of condensate pipes (51) through which cold water can be introduced, and the condensate pipes (51) are in a continuous bending shape;

the condensed water pipe (51) is vertically arranged relative to the air exhaust direction of the air exhaust component (4), and the direction of the air outlet (52) of the condensation heat exchange component (5) is superposed with the arrangement direction of the condensed water pipe (51).

10. The combustion inner module provided with the heat insulation structure as claimed in claim 1, wherein: the condensation heat exchange component (5) comprises a shell (53), a windward baffle (54) is arranged on one side of the shell (53) opposite to the air exhaust end (422) of the air exhaust component (4), and a heat insulation layer (55) is formed between the windward baffle (54) and the shell (53).

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