CN104034030A - Multi-source efficient and environment-friendly integrated hot air furnace - Google Patents

Abstract

The invention provides an efficient and environment-friendly integrated hot air furnace, and relates to all multi-source efficient and environment-friendly integrated hot air furnaces. The efficient and environment-friendly integrated hot air furnace comprises a preheating oxygen-enriched air inlet nozzle 1, an oil and gas combustion system 2, an oxygen-enriched hearth 3, two side cold air inlets 4, a wavy heat absorbing and dissipating plate 5, heat pipe radiators 6, a heat-superconducting heated pot 7, hot air outlets 8, a flue gas outlet 9, a hot air lead-out pipeline 10, an external solar hot water pipe 11, a slag and dust discharge receiving device 12 and a double-layer dust barrier 13. The efficient and environment-friendly integrated hot air furnace has the advantages that heat pump and heat pipe technical principles are applied to the efficient and environment-friendly integrated hot air furnace, the efficient and environment-friendly integrated hot air furnace is combined with integration of heat exchange of solar steam pipelines and is provided with the oxygen-enriched hearth, and various fuels can be sufficiently combusted in the oxygen-enriched hearth, so that heat can be efficiently converted, the heat efficiency can reach 80% at least, and the efficient and environment-friendly integrated hot air furnace is provided with furnace slag and flue dust treatment devices.

Description

Multi-source high-efficiency environment friendly integrated thermal wind furnace

Technical field

The invention belongs to energy-conserving and environment-protective technical field, relate to all multi-source high-efficiency environment friendly integrated thermal wind furnaces.

Background technology

Existing all kinds of hot-blast stove all exists that heat transfer type is single, gas-gas heat exchange is more traditional, even if there is the application of efficient heat transfer technology, but also unstable, energy consumption is large, heat transfer temperature is inhomogeneous, cost is high, pollute and process the problems such as not good enough.

Summary of the invention

The present invention is to provide a kind of utilization heat pump and hot pipe technique principle, and mutually integrated with the heat exchange of solar steam pipeline, adopt pluralities of fuel can carry out clean-burning oxygen enrichment burner hearth, heat energy is efficiently changed, the thermal efficiency can reach more than 80%, and establishes the integrated thermal wind furnace of the efficient and environment-friendly type of slag and soot processing device.Relate to all multi-source high-efficiency environment friendly integrated thermal wind furnaces.It comprises: 1. preheating oxygen enrichment air intake mouth, 2. oily vapour combustion system, 3. oxygen enrichment burner hearth, 4. both sides cool air inlet, 5. waveform is inhaled heat sink, 6. heat-pipe radiator, be 7. heated pot, 8. hot-blast outlet, 9. exhanst gas outlet, 10. slag tap dirt receiving device, 13. double-deck dust block boards of hot blast introduction pipe, 11. external solar water heating pipes, 12. of hot superconduction.

Described preheating oxygen enrichment air intake mouth is sent into the air compressing the inlet duct of arch furnace bottom after furnace wall preheating by fan-shaped porous head.

Described oily vapour combustion system is the double-purpose combustion system that connection oil or natural gas can burn.

Described oxygen enrichment burner hearth is exactly automatically to be regulated intake size, fuel is fully burned by preheating oxygen enrichment air intake mouth according to different fuel, is unlikely to again to take away the efficient burning burner hearth of positive heat.

Described both sides cool air inlet refers to the needed cool air inlet of hot blast, is separately positioned on heat-pipe radiator both sides.

It is with metal wave shape wave plate, flue and heat-pipe radiator air channel to be separated that described waveform is inhaled heat sink, and one side absorbs the heat of flue, and one side preheats and enters the heated entrance cold air of heat-pipe radiator need, has the heat absorption radiation plate of economic benefits and social benefits function.

Described heat-pipe radiator is, with hot pipe technique, the hot superconduction heat that transmits of pot that is heated is added rapidly to the thermal source of hot-air, and it is comprised of heat pipe, fin.

The described hot superconduction pot that is heated is the closed absorption that is integrated by the sealing plate being connected as a single entity with heat-pipe radiator (inner cavity surface is welded with double-deck capillary pulling power wire netting, be placed with special working refrigerant then vacuumize) welding resistance efficient hot superconduction of the transmitting hearth combustion heat pot that is heated.

Described hot-blast outlet is exactly to open at the rear upper lateral part of multi-source high-efficiency environment friendly integrated thermal wind furnace the hot-blast outlet that a rectangle hole hot wind supply is extracted out by air exhauster.

Described exhanst gas outlet is exactly that two square passages for combustion product gases discharge are set from oxygen enrichment burner hearth both sides, it at discharge flue gas simultaneously, also there is preheating waveform and inhale the cold air of heat sink and preheating both sides cool air inlet, the exhanst gas outlet fully fume afterheat being utilized.

Described hot blast introduction pipe is that the hot blast of hot-blast outlet is sucked to the passage that round tube is sent into dryer by air exhauster.It is to form with the satisfactory weldering of golden coiled sheet, and insides of pipes coated magnesium metasilicate heat preservation coating, to reduce heat radiation.

Described external solar water heating pipe is exactly to install in the surrounding inner side of multi-source high-efficiency environment friendly integrated thermal wind furnace the closed type hot waterpipe communicating with solar energy heat-storage system additional, so that when fine, cold air by external solar water heating pipe auxiliary heating both sides cool air inlet, is transferred to hot-blast outlet by flue and hot-blast outlet adjustable plate by the cold air after preheating.

Described slagging-off dirt receiving device is that the double-deck dust block board arranging in both sides quarter bend smoke place by oxygen enrichment burner hearth keeps off go back to oxygen enrichment burner hearth inner side by flue dust and sinks and together regularly regulate and fall into the cleaning plant that connects the slag car with slag along wall.

Described double-deck dust block board be exactly by stainless steel bilayer up and down staggered welding plate be welded on a circular shaft, the transmission mechanism by outside is turnover panel regularly, and the gear ash of stove flue entrance is cleared up to the ash-removing plate that falls to slag notch to burner hearth.

Accompanying drawing 1 multi-source high-efficiency environment friendly integrated thermal wind furnace

In figure: 1. preheating oxygen enrichment air intake mouth, 2. oily vapour combustion system, 3. oxygen enrichment burner hearth, 4. both sides cool air inlet, 5. waveform is inhaled heat sink, 6. heat-pipe radiator, be 7. heated pot, 8. hot-blast outlet, 9. exhanst gas outlet, 10. slag tap dirt receiving device, 13. double-deck dust block boards of hot blast introduction pipe, 11. external solar water heating pipes, 12. of hot superconduction.

Claims (2)

1. the present invention relates to all multi-source high-efficiency environment friendly integrated thermal wind furnaces.

2. it comprises: 1. preheating oxygen enrichment air intake mouth, 2. oily vapour combustion system, 3. oxygen enrichment burner hearth, 5. waveform is inhaled heat sink, 6. heat-pipe radiator, be 7. heated pot, 10. slag tap dirt receiving device, 13. double-deck dust block boards of hot blast introduction pipe, 11. external solar water heating pipes, 12. of hot superconduction.