CN2619743Y - Gas type horizontal Zn powder furnace - Google Patents

Abstract

The utility model discloses a fuel gas horizontal zinc power furnace which utilizes fuels as coal gas, mixed gas or other gases to produce zinc powder. A cylinder heat exchanging chamber is positioned at front or one side of the firebox and is built by fire resistance bricks. An air inlet is positioned at bottom or lower side surface of the exchanging chamber, while the gas inlet is positioned in accordance with combustible gas temperature difference. When the combustible gas is not pre-warmed, the gas inlet is positioned at bottom or lower side surface of the heat exchanging chamber; when the combustible gas is warmed up, the gas inlet is directly positioned at upper of the heat exchanging chamber, thus the combustible gas directly enters the firebox to mix with the pre-warm air and then burn together. The utility model is rational in structure, high in thermal efficiency, large in daily production, low in energy consumption, long in furnace service life, small in labor intensity, low in environment contamination, high in produced zinc powder activity.

Description

The horizontal zinc powder stove of gas type

Technical field

The utility model relates to a kind of metallurgical furnace kiln, and specifically adopting coal gas or other combustion gas, gaseous mixture is the horizontal zinc powder stove of gas type of fuel industry production zinc powder.

Background technology

At present, the industrialized preparing process of zinc powder mainly contains atomization and the way of distillation two big classes.The metallurgical furnace that the way of distillation adopted mainly contains tower-type furnace and horizontal chamber furnace (oven).Wherein tower-type furnace is a fuel with cigarette lump coal or coal gas generally, and its advantage is the zinc powder product purity height of producing, and can handle the high zinc raw material of impurity content.But there are shortcomings such as fixed investment is big, the stove longevity is short, energy consumption is big, cost is high, the fine powder output capacity is low in tower-type furnace, therefore is not used widely in actual production.Horizontal chamber furnace (oven) is most widely used general in zinc powder is produced, but existing horizontal zinc powder stove all is to be fuel or to provide heat energy with electric power with cigarette lump coal.With cigarette lump coal is that the horizontal zinc powder stove furnace temperature fluctuation of fuel is big, the stove longevity short, output is less relatively, and especially environmental pollution is serious, thereby faces the condition that is eliminated; Come the horizontal zinc powder stove furnace temperature of heat supply more stable with electric power, the stove longevity is longer, does not have environmental pollution, but its energy consumption is big, the production cost height.

The utility model content

The purpose of this utility model is to overcome the shortcoming and defect of existing horizontal zinc powder stove, provide a kind of rational in infrastructure, the thermal efficiency is high, furnace temperature is stable, energy consumption is lower, the stove longevity is long, environmental pollution is less, output is high, the fine powder rate is high and can use coal gas or other combustion gas or the gaseous mixture a kind of zinc powder production metallurgy stove as fuel.

The utility model comprises evaporation tank, combustion chamber, melting tank, liquate pond, it is characterized in that being provided with tubular refractory brick at chamber front end or side builds the Heat Room that forms by laying bricks or stones, the import of air is located at the side of Heat Room bottom or bottom, and the fuel gas import is provided with the position difference according to the temperature difference of fuel gas.When fuel gas not during preheating, its import is located at the side of Heat Room bottom or bottom, and fuel gas flows to identical with air flow.The combustion chamber links to each other with Heat Room, evaporation tank is in the bottom, combustion chamber, melting tank and liquate pond are located at the side of evaporation tank, and the exhaust steam passage on combustion chamber, melting tank, top, liquate pond passes through Heat Room after being connected to Heat Room top again, and waste gas flows to opposite with the flow direction of air.The waste heat of burnt gas heats air and the fuel gas that enters the combustion chamber in Heat Room, the three carries out abundant heat exchange with indirect mode in Heat Room, make fuel gas and air after preheating, enter the combustion chamber internal combustion, made full use of waste gas residual heat, reduced energy consumption with higher temperature.When the fuel gas preheating time, its import is directly arranged in Heat Room top, fuel gas directly enter combustion chamber and preheating air mixed combustion.Evaporation tank is the horizontal rectangular structure, and the flame shield and the level that are provided with arcuate structure between evaporation tank and the combustion chamber are placed in evaporation tank top, and the arcuate structure plate that the heats that fuel gas produced such as coal gas are logical passes to the zinc liquid in the evaporation tank.

Also be provided with flame shield at melting tank and top, liquate pond, the heats that fuel gas produced such as coal gas adopt indirect mode to transmit heat to zinc ingot metal, zinc liquid by flame shield, make its melting and heat preservation, reduce and avoided the oxidation of zinc liquid, reduce the zinc unit consumption, and made full use of the waste heat of burnt gas.

Fuel gas and air are to utilize the chimney be located at behind the zinc powder stove or chimney to add pressure reduction that blower fan forms in stove fuel gas and the air air inlet from the diverse location of Heat Room is sucked in Heat Room and the combustion chamber.

Also be provided with the adjusting device of regulating exhaust gas flow in the exhaust steam passage.Can regulate the exhausted air quantity that is used to heat, melt zinc liquid, zinc ingot metal arbitrarily, guarantee that melting tank and liquate pond temperature keep optimal parameter at any time.

Flame shield can be SiC plate or other material plate.

The structure of evaporation tank part is the horizontal rectangular structure.

The zinc powder fine powder rate height that the horizontal zinc powder furnace structure of this gas type is reasonable, the thermal efficiency is high, the stove daily output is big, energy consumption is low, the stove longevity is long, labour intensity is little, environmental pollution is little, produced, active big.

Description of drawings

Fig. 1 is a facade structures schematic diagram of the present utility model;

Fig. 2 is a planar structure schematic diagram of the present utility model;

Fig. 3 is fuel gas and air intlet schematic top plan view;

Fig. 4 is the facade structures schematic diagram in melting tank of the present utility model and liquate pond.

The specific embodiment

The utility model will be further described below in conjunction with drawings and Examples,

Embodiment 1: for the fuel gas of preheating not:

In conjunction with the accompanying drawings: present embodiment is provided with bobbin shape refractory brick at the burner front end and builds the Heat Room (1) that forms by laying bricks or stones, be respectively equipped with fuel gas passage (8) in the Heat Room, air duct (9), burnt gas passage (6), the import (11) of fuel gas import (10) and air is located at the Heat Room bottom, combustion chamber (2) links to each other with Heat Room (1), evaporation tank (3) is (2) bottom in the combustion chamber, the side of evaporation tank (3) is provided with melting tank (4) and liquate pond (5), melting tank, the exhaust steam passage on top, liquate pond passes through Heat Room after being connected to Heat Room top again, and parallel with fuel gas passage and air duct in being located at Heat Room, waste gas flows to and fuel gas, the flow direction of air is opposite.The waste heat of burnt gas heats air and the fuel gas that enters the combustion chamber in Heat Room,, the three carries out abundant heat exchange with indirect mode in Heat Room, and fuel gas and air enter the combustion chamber internal combustion with higher temperature.The structure of evaporation tank part is the horizontal rectangular structure, the flame shield (7-1) and the level that are provided with arcuate structure between evaporation tank and the combustion chamber are placed in evaporation tank top, the heats that fuel gas produced such as coal gas pass to zinc liquid in the evaporation tank by flame shield, adopt the indirect mode that zinc liquid is carried out heating evaporation.Melting tank and top, liquate pond also are provided with flame shield (7-2), and the waste gas of burning adopts the indirect mode to melt zinc ingot metal and zinc liquid by flame shield.Also be provided with the adjusting device of regulating exhaust gas flow in the exhaust steam passage, regulate the exhaust gas flow that enters in melting tank and the liquate pond respectively, with the temperature in control melting tank and the liquate pond.The present embodiment utilization is located at pressure reduction that the chimney behind the zinc powder stove forms fuel gas and the air air inlet from the diverse location of Heat Room bottom is sucked in Heat Room and the combustion chamber in stove.

Add up 4.537 tons/stove of average treatment day crude zinc (grade 99.5%) in the moon with the said equipment at one, the average quantum of output of zinc powder is 4.464 tons/stove day, and total output capacity is 97.3%, and overall recovery is 98.5%, the shared ratio 82.55% of the following super-fine zinc dust of 10um; The gas temperature that enters the combustion chamber after the heat exchange is 500～600 ℃, and air themperature is 400～450 ℃, and the gas consumption of zinc powder per ton is less than 400m ³/ ton.

Embodiment 2: for preheating fuel gas:

The fuel gas import connects and is located at Heat Room top as different from Example 1, and fuel gas directly enters combustion

Burn chamber and preheating air mixed combustion.Fuel gas passage in the Heat Room can keep can be not yet

Keep.If do not keep the fuel gas passage that embodiment 2 no embodiment 1 then mention.

Claims (9)

1, the horizontal zinc powder stove of a kind of gas type, comprise evaporation tank, combustion chamber, melting tank, liquate pond, it is characterized in that being provided with tubular refractory brick at chamber front end or side builds the Heat Room that forms by laying bricks or stones, the import of air is located at the side of Heat Room bottom or bottom, the combustion chamber links to each other with Heat Room, evaporation tank is in the bottom, combustion chamber, melting tank and liquate pond are located at the side of evaporation tank, the exhaust steam passage on combustion chamber, melting tank, top, liquate pond passes through Heat Room after being connected to Heat Room top again, and waste gas flows to opposite with the flow direction of air.

2, the horizontal zinc powder stove of gas type according to claim 1 is characterized in that the fuel gas import is located at the side of Heat Room bottom or bottom, and fuel gas flows to identical with air flow.

3, the horizontal zinc powder stove of gas type according to claim 1 is characterized in that the fuel gas import is directly arranged in Heat Room top.

4, the horizontal zinc powder stove of gas type according to claim 1 is provided with chimney or chimney in it is characterized in that behind the zinc powder stove and adds blower fan and utilize pressure reduction that fuel gas and air are sucked in Heat Room and the combustion chamber.

5, the horizontal zinc powder stove of gas type according to claim 1 is characterized in that also being provided with in the exhaust steam passage adjusting device of regulating exhaust gas flow.

6, the horizontal zinc powder stove of gas type according to claim 1 is characterized in that being provided with flame shield at melting tank and top, liquate pond.

7, the horizontal zinc powder stove of gas type according to claim 1 is characterized in that evaporation tank is the horizontal rectangular structure.

8, the horizontal zinc powder stove of gas type according to claim 1 is characterized in that melting tank and liquate pond are respectively two ponds.

9, the horizontal zinc powder stove of gas type according to claim 1 is characterized in that melting tank and liquate pond are combined into a pond.

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