CN201417076Y - Novel aluminum and aluminum alloy isothermal smelting furnace - Google Patents
Novel aluminum and aluminum alloy isothermal smelting furnace Download PDFInfo
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- CN201417076Y CN201417076Y CN 200920044108 CN200920044108U CN201417076Y CN 201417076 Y CN201417076 Y CN 201417076Y CN 200920044108 CN200920044108 CN 200920044108 CN 200920044108 U CN200920044108 U CN 200920044108U CN 201417076 Y CN201417076 Y CN 201417076Y
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Abstract
The utility model relates to aluminum and an aluminum alloy isothermal smelting furnace. The aluminum alloy isothermal smelting furnace comprises a furnace body and an inner lining, wherein the innerlining is lined in the furnace body to form a hearth, a baffle wall is arranged on the middle position of the hearth to divide the hearth into a furnace starting melting zone and a heating zone, a furnace door and a furnace starting combustion system are installed on the side wall of the furnace starting melting zone, an immerged heater is installed on the furnace top of the heating zone, and vertically extends into the hearth of the heating zone, a flow port is arranged on the side wall of the heating zone, a heating element is installed on the baffle wall, a hole opening is arranged on the bottom of the baffle wall to communicate the furnace starting melting zone with the heating zone, a vortex feeding well and a circulating pump are further arranged outside the furnace body, the vortexfeeding well is communicated with the hearth of the furnace starting melting zone, an inlet of the circulating pump is communicated with the hearth of the heating zone, and an outlet of the circulating pump is communicated with the vortex feeding well. The isothermal smelting furnace can effectively smelt aluminum and aluminum alloy waste materials, aluminum scraps and original aluminum ingots, improves the energy availability ratio, reduces the oxidization burning loss of aluminum liquid, improves the quality of the aluminum liquid, and optimizes the smelting technique.
Description
Technical field
The utility model relates to a kind of isothermal smelting, relates in particular to the isothermal smelting of aluminium melting industry aluminium and aluminium alloy, belongs to the metal smelt technical field.
Background technology
At present, aluminium melting sector application both at home and abroad is reflective smelting furnace the most widely, secondly also has induction type smelting furnace and crucible type smelting furnace, and wherein reflective smelting furnace accounts for the overwhelming majority.
Reflective smelting furnace is divided into reflective smelting furnace of flame and the reflective smelting furnace of resistance, the reflective smelting furnace of flame is to utilize thermal-flame to heat and melting batch through furnace roof radiation and the direct radiation of flame, now liquid or gaseous fuels of adopting, flame temperature can reach 1600~1700 ℃ more.The advantage of the reflective smelting furnace of flame is that production capacity is big, firing rate is fast, smelting time is short, and shortcoming is that the molten bath area is big, the easy oxidation of furnace charge, oxidization burning loss are big.Convection current for want of, the aluminium liquid temperature difference is big up and down in the molten bath, must take to force the stirring measure, so productive labor intensity is bigger, and furnace gas is taken away a lot of heats.
The reflective smelting furnace of resistance is to utilize the resistive element that is installed in the furnace roof shaped brick to produce heat, and mainly by radiant heat transfer heating furnace charge, the advantage of the reflective smelting furnace of resistance is that temperature is easy to control, and the metal air content is lower, and melt quality is better; Shortcoming is that firing rate is slow, and smelting time is long, and resistance is short service life, and unit power consumption is big, and its production capacity is compared low with the flame reverberatory furnace.
Induction type smelting furnace and crucible type smelting furnace are basic identical on mode of heating, by crucible side and bottom heating furnace charge.The advantage of crucible type smelting furnace is that small investment, flexibility are big, and shortcoming is that programming rate is slow, production capacity is low.The advantage of induction type smelting furnace is that firing rate is fast, stirring action is strong, be applicable to that smelting temperature is higher and do not need the alloy of refining, shortcoming is that power factor is low, need to be equipped with auxiliary selenoid equipment, unit of electrical energy consumes high, simultaneously crucible is because the inside and outside wall temperature difference is big, bear the erosion of the washing away of aluminum melt, slag and melt, thereby service life is short.
As fully visible, all there is deficiency in the above-mentioned type of furnace.
Summary of the invention
The purpose of this utility model is to overcome the deficiency that prior art exists, and a kind of novel aluminium and aluminum alloy isothermal smelting furnace are provided, and is intended to effectively improve energy utilization rate, reduces the oxidization burning loss of aluminium liquid, improves the quality of aluminium liquid, optimizes the smelting technology of aluminium and aluminium alloy.
The purpose of this utility model is achieved through the following technical solutions:
A kind of novel aluminum and aluminum alloy isothermal smelting furnace comprise body of heater and liner, and described liner is lining in and forms burner hearth in the body of heater, and characteristics are: the middle part at described burner hearth is provided with partition wall, and described partition wall is divided into burner hearth and opens the stove fusion zone and the thermal treatment zone; On a described side wall that opens the stove fusion zone, a fire door is installed, on described another side wall that opens the stove fusion zone, is provided with and opens the stove combustion system; On the furnace roof of the described thermal treatment zone immersion heater is installed, described immersion heater vertically stretches in the burner hearth of the thermal treatment zone, and the side wall of the described thermal treatment zone is provided with head piece; On the described partition wall heating element heater is installed, has hole in the bottom of described partition wall and make and describedly open the stove fusion zone and the described thermal treatment zone connects; In addition, also be furnished with reinforced well of vortex and circulating pump outside body of heater, the reinforced well of described vortex is connected with the burner hearth that opens the stove fusion zone, and described inlet of circulating pump is connected with the burner hearth of the thermal treatment zone, and described outlet of circulating pump is connected with the reinforced well of vortex.
Further, above-mentioned a kind of novel aluminum and aluminum alloy isothermal smelting furnace, wherein, be connected a tube connector at the reinforced well of described vortex between the stove fusion zone with opening, one end of described tube connector stretches into the bottom of the reinforced well of vortex, the other end of described tube connector stretches into the bottom of opening stove fusion zone burner hearth, and the reinforced well of vortex is connected with the burner hearth that opens the stove fusion zone.
Further, above-mentioned a kind of novel aluminum and aluminum alloy isothermal smelting furnace, wherein, described inlet of circulating pump is connected with the burner hearth of the thermal treatment zone by tube connector, and described outlet of circulating pump is connected by the reinforced well of tube connector and vortex.
Further, above-mentioned a kind of novel aluminum and aluminum alloy isothermal smelting furnace wherein, are also installed a fire door hoisting mechanism on the described side wall that opens the stove fusion zone, and described fire door hoisting mechanism drives with fire door and is connected.
Again further, above-mentioned a kind of novel aluminum and aluminum alloy isothermal smelting furnace is characterized in that: described circulating pump is Electromagnetic Recirculation Pump or permanent magnetism circulating pump or mechanical pump.
Again further, above-mentioned a kind of novel aluminum and aluminum alloy isothermal smelting furnace wherein, also are provided with overfall on the side wall of the described thermal treatment zone.
The substantive distinguishing features of technical solutions of the utility model and progressive being mainly reflected in:
1. the utility model aluminium and aluminum alloy isothermal smelting furnace can carry out melting to aluminium and aluminium alloy under steady temperature, aluminium liquid after the fusing circulates in the system of a complete closed, temperature of aluminum liquid in the burner hearth changes in very among a small circle, and temperature everywhere is almost consistent, significantly optimize smelting technology, improved the integrated heat efficiency of stove greatly, improved energy utilization rate, reduce energy resource consumption, reduced pollutant emission;
2. the immersion mode of heating of isothermal smelting and high speed endless form, make the melt temperature unanimity, composition is even, can formation temperature gradient and thermosphere phenomenon, and the melt quality improves greatly, iron loss is little, dissolved gases in the melt, solid inclusions are few, and the slag of formation also obviously reduces, and has simplified follow-up online treatment process, improve the blank quality, reduce cost;
3. this apparatus structure novelty, reliable, operating cost is low, easy to maintenance, floor space is little, the melting that is widely used in virgin aluminium ingot remelting of aluminium processing industry and aluminium scrap and aluminium bits is reclaimed, and has a extensive future.
Description of drawings
Below in conjunction with accompanying drawing technical solutions of the utility model are described further:
Fig. 1: the schematic top plan view of the utility model smelting furnace;
The A-A cross-sectional schematic of Fig. 2: Fig. 1;
The B-B cross-sectional schematic of Fig. 3: Fig. 1;
Fig. 4: the structural representation of the utility model smelting furnace thermal treatment zone.
The implication of each Reference numeral sees the following form among the figure:
Reference numeral | Implication | Reference numeral | Implication | Reference numeral | Implication |
1 | Circulating |
2 | The vortex well that feeds in |
3 | |
4 | Body of |
5 | Liner | 6 | Fire door |
7 | Open the stove fusion zone | 8 | Open the |
9 | |
10 | |
11 | |
12 | |
13 | The thermal treatment zone |
The specific embodiment
Aluminium and aluminum alloy isothermal melting are under steady temperature aluminium and aluminium alloy to be carried out melting, temperature of aluminum liquid in the burner hearth is changed in very among a small circle, and temperature everywhere is almost consistent, and temperature of aluminum liquid is monitored automatically by computer in the aluminum melt pond, by the trace of the partition wall in the middle of burner hearth control temperature.The isothermal smelting technology is a continuous process, and the aluminium liquid after the fusing circulates in the system of a complete closed, by charging zone, open stove fusion zone, the thermal treatment zone, circulation pumping district and form.And the utility model provides a kind of novel aluminium and aluminum alloy isothermal smelting furnace, and melting aluminium and aluminium alloy scrap, aluminium bits and virgin aluminium ingot effectively improve energy utilization rate efficiently, reduce the oxidization burning loss of aluminium liquid, improve the quality of aluminium liquid, optimize smelting technology.
As shown in Figure 1, novel aluminium and aluminum alloy isothermal smelting furnace, mainly comprise: circulating pump 1, vortex reinforced well 2, body of heater 4, liner 5, fire door 6, open the stove fusion zone 7 and the thermal treatment zone 13 etc., liner 5 is lining in and forms burner hearth in the body of heater, in the middle part of burner hearth partition wall 9 is set, partition wall 9 is divided into burner hearth and opens the stove fusion zone 7 and the thermal treatment zone 13; A fire door 6 and a fire door hoisting mechanism are installed opening on the side wall of stove fusion zone 7, the fire door hoisting mechanism drives with fire door 6 and is connected, and as Fig. 2, opens stove combustion system 8 opening on another side wall of stove fusion zone 7 setting; Immersion heater 11 is installed on the furnace roof of the thermal treatment zone 13, and as Fig. 4, immersion heater 11 vertically stretches in the burner hearth of the thermal treatment zone 13, and a side wall of the thermal treatment zone 13 is provided with head piece 10, and another side wall of the thermal treatment zone 13 is provided with overfall 12; On the partition wall 9 heating element heater is installed,, has hole in the bottom of partition wall and make and open stove fusion zone 7 and connect with the thermal treatment zone 13 as Fig. 3.In addition, also the disposed outside at body of heater 4 has reinforced well 2 of vortex and circulating pump 1, be connected a tube connector 3 at the reinforced well 2 of vortex between the stove fusion zone 7 with opening, one end of tube connector 3 stretches into the bottom of the reinforced well 2 of vortex, the other end of tube connector 3 stretches into the bottom of opening stove fusion zone burner hearth, and the reinforced well 2 of vortex is connected with the burner hearth that opens stove fusion zone 7; The import of circulating pump 1 is connected by the burner hearth of tube connector with the thermal treatment zone 13, and the outlet of circulating pump 1 is connected by the reinforced well 2 of tube connector and vortex, and circulating pump 1 adopts Electromagnetic Recirculation Pump or permanent magnetism circulating pump or mechanical pump.
Isothermal smelting structurally is divided into four zones that are connected: charging zone, open stove fusion zone, the thermal treatment zone, circulation pumping district.First district is a charging zone, it is an independent reinforced well 2 of vortex, link to each other with body of heater by tube connector, packing waste material, aluminium bits, aluminium alloy etc. can add in the stove from charging zone, the aluminium liquid of circulation forms tangible vortex in the reinforced well 2 of whirlpool at a high speed, the aluminium bits that add are sunk to the shaft bottom, and bring in the stove at a high speed by aluminium liquid.Stove fusion zone 7 is opened in second district, also can be used as and opens the stokehold charging zone, and this district is furnished with combustion system 8, when opening stove the solid material that adds is melted.The 3rd district is the thermal treatment zone 13, this district is furnished with many group immersion heaters 11, immersion heater 11 has very high heat flux, higher 5~10 times than traditional industry heater, have very strong anti-melt corrode ability, heat shock resistance and mechanical shock, the heater appearance applies the coating that existing good heat transfer capacity has very strong refractory erosion effect again, immersion heater 11 is immersed in the aluminium liquid, and aluminium liquid is conducted heating, guarantees heater and the heat exchange effect of aluminium liquid and the uniformity of temperature of aluminum liquid.The 4th district is circulation pumping district, and an Electromagnetic Recirculation Pump or permanent magnetism circulating pump or mechanical pump are housed, and makes the circulation at a high speed in the zone that is communicated with of aluminium liquid.The thermal treatment zone 13, open partition wall 9 arranged between the stove fusion zone 7 one, its effect be with the thermal treatment zone 13 with open stove fusion zone 7 and separate, in the middle of the partition wall 9 heating element heater is housed, this heating element heater makes melt be close to constant temperature for aluminium liquid provides the insulation heat.Certain solid-state material of at first packing into when opening stove, open the combustion system 8 of stove fusion zone, start the immersion heater 11 of the thermal treatment zone, progressively melting solid aluminium produces aluminium liquid, after solid aluminium to be added all melts, start aluminium liquid circulating pump, make aluminium liquid at race way, charging zone, open between stove fusion zone, the thermal treatment zone and circulate at a high speed, after aluminium liquid can normal circulation, close the combustion system 8 that opens the stove fusion zone, to reduce the oxidization burning loss of aluminium liquid.Afterwards, in the reinforced well 2 of vortex, add aluminium scrap, packing aluminium bits, tiny aluminium block or aluminium alloy etc., the aluminium liquid that the material of adding can be circulated fast takes to open in the stove fusion zone 7 and the thermal treatment zone 13 and melts, so circulation, the aluminium liquid capacity in the molten bath, temperature of aluminum liquid, component target all reach till the preset requirement.Aluminium liquid can flow out from the head piece 10 of limit, thermal treatment zone portion, casts or flow to aluminium water bag.
During application, this device vertically is installed on the basis, aluminium founding workshop, and with respect to the existing various aluminium melting furnace types of identical production capacity, this device only needs seldom or not to need to change the basis, workshop, thereby the civil engineering workload significantly reduces.Body of heater 4 is fixed on the basis, workshop, and the reinforced well of circulating pump 1, vortex 2 is mounted on the basis by steel structure support.The reinforced well of circulating pump 1 and vortex 2 is connected by tube connector, and the reinforced well 2 of vortex also is connected with body of heater 4 by tube connector 3.Stove liner 5 is built by laying bricks or stones in body of heater 4, plays that the liquid of anti-aluminium corrodes, flame resistant is washed away and the effect of heat-insulation and heat-preservation.Fire door 6 and hoisting mechanism are arranged on the side wall of stove, the switching of responsible fire door and lifting, decline.Open stove fusion zone 7 and mainly opening the stokehold by opening fire door, drop into the part solid aluminium to opening the stove fusion zone, open the 7 side wall tops adjacent, stove fusion zone and be furnished with and open stove combustion system 8, open stove combustion system 8 and start the solid aluminium fusing of input being opened stove fusion zone 7, produce liquid aluminium with the fire door side wall.Midfeather 9 with the thermal treatment zone 7 with open stove fusion zone 13 and separate; Partition wall 9 bottoms have hole in burner side wall side, make aluminium liquid flow to the thermal treatment zone 13 by opening stove fusion zone 7, heating element heater is housed in the middle of the partition wall, heating element heater provides the insulation heat for aluminium liquid, make melt be close to constant temperature, immersion heater 11 is arranged in the thermal treatment zone, is installed on stove top, the heater heater element directly is immersed in the aluminium liquid, and aluminium liquid is heated.The thermal treatment zone is furnished with head piece 10 and overfall 12 respectively, after stove is finished the melting of aluminium and handled, aluminium liquid is emitted from head piece 10, finish the casting technique of postorder, the effect of overfall 12 is after aluminium liquid liquid level surpasses the warning liquid level of stove, by overfall 12 too much aluminium liquid is overflowed from here, to prevent that aluminium liquid from overflowing the damage element from other positions, avoids causing personnel's accident.
When specifically being used to produce, open the stokehold according to operation require to check each parts normal errorless after, open fire door 6, stop after making fire door 6 promote certain altitude, drop into the part solid aluminium to opening stove fusion zone 7, the weight of solid aluminium is about 50% of the whole batches of stove, open stove combustion system 8, close fire door after opening stove combustion system 8 normal combustion, start the heating element heater that is equipped with in the middle of the partition wall simultaneously, start thermal treatment zone immersion heater 11, progressively melting solid aluminium produces aluminium liquid, after solid aluminium to be added all melts, start aluminium liquid circulating pump, make aluminium liquid in the race way, charging zone, open the stove fusion zone, circulate at a high speed between the thermal treatment zone, after aluminium liquid can normal circulation, the temperature that aluminium liquid is set was between 720~760 ℃, close open the stove fusion zone open stove combustion system 8, to reduce the air-breathing and scaling loss of aluminium liquid.Afterwards, in the reinforced well 2 of vortex, add aluminium scrap, packing aluminium bits, tiny aluminium block (granular size be no more than tube connector internal diameter 1/2), the aluminium liquid that the material of adding can be circulated fast takes to open in the stove fusion zone 7 and the thermal treatment zone 13 and melts, reinforced speed is advisable with the heat melts that can be submerged the formula heater and can provide, reinforced too soon then because the under-supply aluminium liquid that makes easily of heat solidifies the reinforced production capacity that then influences stove too slowly again.Immersion heater 11 is owing to directly be arranged in the middle of the aluminium liquid, aluminium liquid is heated up and down simultaneously, and because aluminium liquid flows fast in the thermal treatment zone (speed 〉=8 meter per seconds usually), accept the heat that immersion heater radially provides again, the heat exchange mode of immersion heater and aluminium liquid is the conduction heating, with convection current is auxilliary, thereby makes the melt temperature unanimity, is different from traditional main aluminium fusing mode based on radiation and convection current fully; And immersion heater is by conduction, and nearly all heat that heater provides is all absorbed by aluminium liquid, so the integrated heat efficiency height.Simultaneously, aluminium liquid circulating pump makes aluminium liquid in the circulation of several districts of stove high-speed stirred again, so aluminium liquid composition is more even, does not have thermograde and thermosphere phenomenon, and the melt quality improves greatly.
The utility model isothermal smelting is owing to the temperature of aluminium liquid is set between 720~760 ℃, the uniformity of temperature can reach ± and 5 ℃, aluminum melt temperature in the burner hearth changes in very among a small circle, and temperature everywhere is almost consistent, therefore the scaling loss of aluminium is less, in 1%, the energy utilization rate of this isothermal smelting furnace is more than 60%.And traditional flame reverberatory furnace is to utilize thermal-flame to heat and melting batch through furnace roof radiation and the direct radiant heat transfer of flame, and the shortcoming of flame reverberatory furnace is that the molten bath area is big, the easy oxidation of furnace charge, volatilization melting loss are big; Convection current for want of, the molten bath upper and lower temperature difference is big, must take to force the stirring measure, and productive labor intensity is bigger, and furnace gas is taken away a lot of heats.
In sum, the integrated heat efficiency height of the utility model device, energy utilization rate is good, and energy resource consumption is few, and aluminium and oxidized aluminum alloy scaling loss are little, and security performance is good.Immersion heater offers the three-dimensional mode of heating of aluminium liquid, make the melt temperature unanimity, composition is even, there are not thermograde and thermosphere phenomenon, the melt quality improves greatly, and dissolved gases in the melt, solid inclusions are few, can simplify follow-up online treatment process, improve the blank quality, reduce cost.And, the utility model apparatus structure uniqueness, reliable, operating cost is low, easy to maintenance, floor space is little, the melting that can be widely used in virgin aluminium ingot remelting of aluminium processing industry and aluminium scrap and aluminium bits is reclaimed, and is worth wide popularization and application in the field of business.
What need understand is: above-mentioned explanation is not to be to restriction of the present utility model, and in the utility model design scope, the interpolation of being carried out, conversion, replacement etc. also should belong to protection domain of the present utility model.
Claims (6)
1. novel aluminum and aluminum alloy isothermal smelting furnace comprise body of heater and liner, and described liner is lining in and forms burner hearth in the body of heater, and it is characterized in that: the middle part at described burner hearth is provided with partition wall, and described partition wall is divided into burner hearth and opens the stove fusion zone and the thermal treatment zone; On a described side wall that opens the stove fusion zone, a fire door is installed, on described another side wall that opens the stove fusion zone, is provided with and opens the stove combustion system; On the furnace roof of the described thermal treatment zone immersion heater is installed, described immersion heater vertically stretches in the burner hearth of the thermal treatment zone, and the side wall of the described thermal treatment zone is provided with head piece; On the described partition wall heating element heater is installed, has hole in the bottom of described partition wall and make and describedly open the stove fusion zone and the described thermal treatment zone connects; In addition, also be furnished with reinforced well of vortex and circulating pump outside body of heater, the reinforced well of described vortex is connected with the burner hearth that opens the stove fusion zone, and described inlet of circulating pump is connected with the burner hearth of the thermal treatment zone, and described outlet of circulating pump is connected with the reinforced well of vortex.
2. a kind of novel aluminum according to claim 1 and aluminum alloy isothermal smelting furnace, it is characterized in that: be connected a tube connector between the stove fusion zone with opening at the reinforced well of described vortex, one end of described tube connector stretches into the bottom of the reinforced well of vortex, the other end of described tube connector stretches into the bottom of opening stove fusion zone burner hearth, and the reinforced well of vortex is connected with the burner hearth that opens the stove fusion zone.
3. a kind of novel aluminum according to claim 1 and aluminum alloy isothermal smelting furnace is characterized in that: described inlet of circulating pump is connected with the burner hearth of the thermal treatment zone by tube connector, and described outlet of circulating pump is connected by the reinforced well of tube connector and vortex.
4. a kind of novel aluminum according to claim 1 and aluminum alloy isothermal smelting furnace is characterized in that: on the described side wall that opens the stove fusion zone fire door hoisting mechanism is installed also, described fire door hoisting mechanism drives with fire door and is connected.
5. a kind of novel aluminum according to claim 1 and aluminum alloy isothermal smelting furnace is characterized in that: described circulating pump is Electromagnetic Recirculation Pump or permanent magnetism circulating pump or mechanical pump.
6. a kind of novel aluminum according to claim 1 and aluminum alloy isothermal smelting furnace is characterized in that: also be provided with overfall on the side wall of the described thermal treatment zone.
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CN 200920044108 CN201417076Y (en) | 2009-06-18 | 2009-06-18 | Novel aluminum and aluminum alloy isothermal smelting furnace |
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CN 200920044108 CN201417076Y (en) | 2009-06-18 | 2009-06-18 | Novel aluminum and aluminum alloy isothermal smelting furnace |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108998681A (en) * | 2017-06-06 | 2018-12-14 | 姚晓宁 | A kind of aluminium skimmings secondary aluminium rapid melting device |
-
2009
- 2009-06-18 CN CN 200920044108 patent/CN201417076Y/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108998681A (en) * | 2017-06-06 | 2018-12-14 | 姚晓宁 | A kind of aluminium skimmings secondary aluminium rapid melting device |
CN108998681B (en) * | 2017-06-06 | 2024-03-15 | 保定安保能冶金设备有限公司 | Quick melting device of aluminium bits recycled aluminum |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20100303 Effective date of abandoning: 20090618 |