CN202813766U - Thermal oil furnace with high thermal utilization rate - Google Patents

Abstract

The utility model discloses a thermal oil furnace with high thermal utilization rate. The thermal oil furnace comprises a casing, an air distribution system, a combustion chamber, a fire grate in the combustion chamber, an ash outlet at the bottom of the fire grate, a coal filler connected with the combustion chamber, a thermal transmission chamber above the combustion chamber, a thermal coupler and a liquid level meter both arranged in the thermal transmission chamber, an explosion-proof valve at the top of the thermal transmission chamber, an oil outlet and an oil inlet both connected with the thermal transmission chamber, a high-temperature pyrolysis chamber, a gas storage chamber between the high-temperature pyrolysis chamber, a feed inlet above the high-temperature pyrolysis chamber, another fire grate in the high-temperature pyrolysis chamber, and another ash outlet at the bottom of the fire grate. Biomass fuel can replace for conventional coal to serve as a fuel of the thermal oil furnace, so that resources are saved greatly, and environmental pollution is reduced. The coal is used as spare fuel, thereby guaranteeing fuel supply without interruption.

Description

The heat-conducting oil furnace that a kind of heat utilization efficiency is higher

Technical field

The utility model relates to the heat-conducting oil furnace field, particularly relates to the higher heat-conducting oil furnace of a kind of heat utilization efficiency.

Background technology

Along with industrial expansion, the reserves of present tellurian non-renewable resources such as coal, oil, natural gas reduce year by year.Biomass fuel burner progressively is applied in the modern production as a kind of equipment of renewable resource that utilizes.The raw material of biomass fuel such as stalk, wood chip have abundant output in China; but the skewness of these raw materials and be subjected to the impact in season; brought certain difficulty for the large-scale production of biomass fuel; each biomass fuel manufacturers produce biomass fuel out is diversified in specifications, and there is certain unstability in the supply of biomass fuel.

The utility model content

The technical problem that the utility model mainly solves provides the higher heat-conducting oil furnace of a kind of heat utilization efficiency, can adopt biomass fuel to replace traditional coal as the fuel of heat-conducting oil furnace, greatly saved resource, reduced environmental pollution, simultaneously, coal has guaranteed also that as a kind of guarantee fuel the supply of fuel is not interrupted.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: provide a kind of heat utilization efficiency higher heat-conducting oil furnace, comprise: housing, blowing system, the combustion chamber, the fire grate in the combustion chamber, the ash hole of fire grate bottom, the coal filling hole that connects the combustion chamber, the hot transfer chamber of top, combustion chamber, the thermocouple in the hot transfer chamber and liquid level gauge, the explosion-proof valve at top, hot transfer chamber, the oil-out and the oil-in that connect hot transfer chamber, also comprise the Pintsch process chamber, the air storage chamber between Pintsch process chamber and the combustion chamber, the charging aperture of top, Pintsch process chamber, the fire grate that Pintsch process is indoor, the ash hole of fire grate bottom.

In preferred embodiment of the utility model, an air inlet is arranged between described Pintsch process chamber and the air storage chamber.

In preferred embodiment of the utility model, an air nozzle that is connected to air storage chamber is arranged in the described combustion chamber.

The beneficial effects of the utility model are: the utility model adopts biomass fuel to replace traditional coal as the fuel of heat-conducting oil furnace, has greatly saved resource, has reduced environmental pollution, and simultaneously, coal has guaranteed also that as a kind of guarantee fuel the supply of fuel is not interrupted.

Description of drawings

Fig. 1 is the structural representation of higher heat-conducting oil furnace one preferred embodiment of a kind of heat utilization efficiency of the utility model;

The mark of each parts is as follows in the accompanying drawing: 1, housing, 2, the Pintsch process chamber, 3, the combustion chamber, 4, fire grate, 5, ash hole, 6, charging aperture, 7, blowing system, 8, air storage chamber, 9, air inlet, 10, air nozzle, 11, hot transfer chamber, 12, oil-out, 13, oil-in, 14, coal filling hole, 15, explosion-proof valve, 16, thermocouple, 17, liquid level gauge.

The specific embodiment

Below in conjunction with accompanying drawing preferred embodiment of the present utility model is described in detail, thereby so that advantage of the present utility model and feature can be easier to be it will be appreciated by those skilled in the art that protection domain of the present utility model is made more explicit defining.

See also the structural representation of higher heat-conducting oil furnace one preferred embodiment of a kind of heat utilization efficiency of Fig. 1, the utility model embodiment comprises:

The heat-conducting oil furnace that a kind of heat utilization efficiency is higher, comprise: housing 1, blowing system 7, combustion chamber 3, fire grate 4 in the combustion chamber 3, the ash hole 5 of fire grate bottom, the coal filling hole 14 that connects combustion chamber 3, the hot transfer chamber 11 of top, combustion chamber, thermocouple 16 and liquid level gauge 17 in the hot transfer chamber 11, the explosion-proof valve 15 at 11 tops, hot transfer chamber, the oil-out 12 and oil-in 13 that connect hot transfer chamber 11, also comprise Pintsch process chamber 2, the air storage chamber 8 between Pintsch process chamber 2 and the combustion chamber 3, the charging aperture 6 of 2 tops, Pintsch process chamber, fire grate 4 in the Pintsch process chamber 2, the ash hole 5 of fire grate 4 bottoms, biomass fuel is cracked into biogas in Pintsch process chamber 2, and biogas is stored in the air storage chamber 8 by air inlet 9, biogas is from air nozzle 10 ejections, light biogas heat transmission chamber 11 is heated, described method is cracked into biogas with biomass fuel first and burns, has greatly improved the heat utilization efficiency of biomass fuel.

Further, an air inlet 6 is arranged between described Pintsch process chamber 2 and the air storage chamber 8, the biogas that 2 cracking of Pintsch process chamber go out is stored in air storage chamber 8 by air inlet 9.

Further, an air nozzle 10 that is connected to air storage chamber 8 is arranged in the described combustion chamber 3, light air nozzle hot transfer chamber 11 is heated.

Be different from prior art, the utility model adopts living beings and two kinds of fuel of coal, has guaranteed the supply of fuel, has improved production efficiency, and in addition, the pollution that biomass fuel combustion produces is significantly smaller than coal, has reduced the environmental protection input.

The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims (3)

1. heat-conducting oil furnace that heat utilization efficiency is higher, comprise: housing (1), blowing system (7), combustion chamber (3), fire grate in the combustion chamber (4), the ash hole (5) of fire grate bottom, the coal filling hole (14) that connects the combustion chamber, the hot transfer chamber (11) of top, combustion chamber, thermocouple in the hot transfer chamber (16) and liquid level gauge (17), the explosion-proof valve (15) at top, hot transfer chamber connects the oil-out (12) and oil-in (13) of hot transfer chamber, it is characterized in that, also comprise Pintsch process chamber (2), the air storage chamber (8) between Pintsch process chamber (2) and combustion chamber (3), the charging aperture (6) of top, Pintsch process chamber, the fire grate (4) that Pintsch process is indoor, the ash hole (5) of fire grate bottom.

2. the higher heat-conducting oil furnace of a kind of heat utilization efficiency according to claim 1 is characterized in that, between described Pintsch process chamber (2) and the air storage chamber (8) air inlet (9) is arranged.

3. the higher heat-conducting oil furnace of a kind of heat utilization efficiency according to claim 1 is characterized in that, an air nozzle (10) that is connected to air storage chamber (8) is arranged in described combustion chamber (3).

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