CN206208000U - A kind of electromagnetic induction aluminium melting furnace - Google Patents

Abstract

The utility model discloses a kind of electromagnetic induction aluminium melting furnace, including body of heater shell, insulating brick, heat-preservation cotton, crucible, shielding alloy, sensing heating silk, high temperature resistant line bank and binding post, the insulating brick includes left side insulating brick, right side insulating brick and lower end insulating brick, crucible is arranged on the middle part of body of heater enclosure, shielding alloy is installed between the upper end of crucible and body of heater shell, shielding alloy is provided between crucible and lower end insulating brick, shielding alloy is disposed between crucible and the insulating brick of both sides from outside to inside with ceramics, sensing heating silk is uniformly provided with ceramics and sensing heating silk extends outside body of heater shell.The device is heated using the crucible that equally distributed induced electricity heated filament has conducting particles to surface, and shielding alloy, insulating brick and heat-preservation cotton, good effect of heat insulation are provided with around sensing heating silk, firing rate is fast, energy consumption is small, can improve the economic benefit of manufacturing enterprise, and using effect is good.

Description

A kind of electromagnetic induction aluminium melting furnace

Technical field

The utility model is related to a kind of induction furnace, specifically a kind of electromagnetic induction aluminium melting furnace.

Background technology

Induction furnace is the electric furnace for making material heat or melt using the Induction Heating effect of material.The friendship that induction furnace is used Stream power supply has 3 kinds of power frequency (50 or 60 hertz), intermediate frequency (150~10000 hertz) and high frequency (higher than 10000 hertz).In induction furnace Under alternating electromagnetism field action, material inside produce vortex so as to reach heating or fusing effect.In this alternating magnetic field Under stirring action, the composition and temperature of material are more uniform in stove, and Forge Heating temperature is up to 1250 DEG C, and smelting temperature is reachable 1650℃.Induction furnace decapacitation heat in an atmosphere or melting outside, moreover it is possible to heated or molten in the protective atmosphere such as vacuum and argon, neon Refining, to meet the requirement of very special quality.Induction furnace is in diathermanous or melting magnetically soft alloy, high-resistance alloy, platinum metal alloy, heat-resisting, resistance to Erosion, antifriction alloy and simple metal aspect have the advantages that protrusion.Sensing aluminium melting furnace is exactly one of which induction furnace, but existing Sensing aluminium melting furnace energy consumption it is big, firing rate is slow, and this is just for manufacturing enterprise brings inconvenience.

Utility model content

The purpose of this utility model is to provide a kind of electromagnetic induction aluminium melting furnace, to solve what is proposed in above-mentioned background technology Problem.

To achieve the above object, the utility model provides following technical scheme：

A kind of electromagnetic induction aluminium melting furnace, including body of heater shell, insulating brick, heat-preservation cotton, crucible, shielding alloy, sensing heating Silk, high temperature resistant line bank and binding post, the insulating brick, heat-preservation cotton, crucible, shielding alloy and sensing heating silk are installed in Body of heater enclosure, insulating brick includes left side insulating brick, right side insulating brick and lower end insulating brick, and crucible uses hollow cylinder structure And crucible surface has conducting particles, and crucible is arranged on the middle part of body of heater enclosure, outside the upper end of crucible and body of heater Shielding alloy is installed between shell, left side insulating brick is provided with the left of crucible, right side insulating brick, earthenware are provided with the right side of crucible The lower end of crucible is provided with lower end insulating brick, and shielding alloy, the insulation of crucible and both sides are provided between crucible and lower end insulating brick It is disposed with from outside to inside between brick and shields alloy and ceramics, sensing heating silk is uniformly provided with ceramics and sensing adds Heated filament extends outside body of heater shell, between left side insulating brick and body of heater shell and between right side insulating brick and body of heater shell Heat-preservation cotton is provided with, high temperature resistant line bank is connected with the sensing heating silk extended outside body of heater shell, and binding post includes top Portion's binding post and side terminal, side terminal are connected with high temperature resistant line bank, and top binding post is arranged on stove Upper end outside body case.

As further program of the utility model：Shielding is installed between side terminal and high temperature resistant line bank to close Gold, shielding alloy uses ferronickel molybdenum alloy.

As further program of the utility model：Body of heater shell is made using cast iron materials, the number of top binding post Measure is two.

Compared with prior art, the beneficial effects of the utility model are：The device is reasonable in design, simple structure, fault rate It is low, safety in utilization and good operation stability；The device has conducting particles using equally distributed induced electricity heated filament to surface Crucible heated, be provided with shielding alloy, insulating brick and heat-preservation cotton around sensing heating silk, good effect of heat insulation, plus Thermal velocity is fast, and energy consumption is small, can improve the economic benefit of manufacturing enterprise, and using effect is good.

Brief description of the drawings

Fig. 1 is the structural representation of electromagnetic induction aluminium melting furnace.

Wherein：1- body of heater shells, 2- heat-preservation cottons, 3- ceramics, 4- crucibles, 5- shielding alloys, 6- sensing heatings silk, the resistance to height of 7- Warm line bank, 8- tops binding post, 9- left sides insulating brick, 10- right sides insulating brick, 11- lower ends insulating brick, the wiring of 12- sides Terminal.

Specific embodiment

The technical scheme of this patent is described in more detail with reference to specific embodiment.

Refer to Fig. 1, a kind of electromagnetic induction aluminium melting furnace, including body of heater shell 1, insulating brick, heat-preservation cotton 2, crucible 4, shielding Alloy 5, sensing heating silk 6, high temperature resistant line bank 7 and binding post, the insulating brick, heat-preservation cotton 2, crucible 4, shielding alloy 5 It is installed in inside body of heater shell 1 with sensing heating silk 6, insulating brick includes that left side insulating brick 9, right side insulating brick 10 and lower end are protected Warm brick 11, crucible 4 has conducting particles using hollow cylinder structure and the surface of crucible 4, and crucible 4 is arranged in body of heater shell 1 The middle part in portion, is provided with shielding alloy 5 between the upper end of crucible 4 and body of heater shell 1, the left side of crucible 4 is provided with left side Insulating brick 9, the right side of crucible 4 is provided with right side insulating brick 10, and the lower end of crucible 4 is provided with lower end insulating brick 11, and crucible 4 is with Shielding alloy 5 is provided between the insulating brick 11 of end, shielding is disposed between crucible 4 and the insulating brick of both sides from outside to inside and is closed Gold 5 and ceramics 3, are uniformly provided with sensing heating silk 6 on ceramics 3 and sensing heating silk 6 extends outside body of heater shell 1, Heat-preservation cotton 2, resistance to height are provided between left side insulating brick 9 and body of heater shell 1 and between right side insulating brick 10 and body of heater shell 1 Warm line bank 7 is connected with the sensing heating silk 6 extended outside body of heater shell 1, and binding post includes top binding post 8 and side Face binding post 12, side terminal 12 is connected with high temperature resistant line bank 7, and top binding post 8 is arranged on outside body of heater shell 1 The upper end in portion.Shielding alloy 5 is installed, shielding alloy 5 uses ferronickel molybdenum between side terminal 12 and high temperature resistant line bank 7 Alloy.Body of heater shell 1 is made using cast iron materials, and the quantity of top binding post 8 is two.

Operation principle of the present utility model is：Aluminium is put into crucible 4, input line is connected with binding post, input electricity Pressure is connected by high temperature resistant line bank 7 with sensing heating silk 6, and input current produces magnetic field, magnetic field and earthenware by sensing heating silk 6 Crucible 4 produces vortex, and the surface of crucible 4 has conducting particles, and vortex is heated by conducting particles to crucible 4, reaches molten aluminum Purpose, the left and right sides of crucible 4 and lower end be provided with shielding alloy 5, and this mode can cause that crucible 4 has guarantor well Temp effect, than traditional heating mode energy-conservation more than 30%.Insulating brick and heat-preservation cotton 2 can play a part of insulation, ceramics 3 Sensing heating silk 6 can be fixed so that more rationally, firing rate is faster than traditional heating mode for the distribution of sensing heating silk 6.

The device is reasonable in design, and simple structure, fault rate is low, safety in utilization and good operation stability；The device is used The crucible 4 that equally distributed induced electricity heated filament 6 has conducting particles to surface is heated, and is provided with around sensing heating silk 6 Shielding alloy 5, insulating brick and heat-preservation cotton 2, good effect of heat insulation, firing rate are fast, and energy consumption is small, can improve manufacturing enterprise Economic benefit, using effect is good.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of without departing substantially from spirit or essential attributes of the present utility model, can in other specific forms realize that this practicality is new Type.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality is new The scope of type limits by appended claims rather than described above, it is intended that the equivalency fallen in claim is contained All changes in justice and scope are included in the utility model.Any reference in claim should not be considered as limitation Involved claim.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each implementation method is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art should Specification an as entirety, the technical scheme in each embodiment can also be formed into those skilled in the art through appropriately combined May be appreciated other embodiment.

Claims (3)

1. a kind of electromagnetic induction aluminium melting furnace, it is characterised in that including body of heater shell, insulating brick, heat-preservation cotton, crucible, shielding alloy, Sensing heating silk, high temperature resistant line bank and binding post, the insulating brick, heat-preservation cotton, crucible, shielding alloy and sensing heating silk Body of heater enclosure is installed in, insulating brick includes left side insulating brick, right side insulating brick and lower end insulating brick, and crucible is using hollow Cylindrical structure and crucible surface have conducting particles, and crucible is arranged on the middle part of body of heater enclosure, the upper end of crucible Shielding alloy is installed between body of heater shell, left side insulating brick is provided with the left of crucible, right side is provided with the right side of crucible Insulating brick, the lower end of crucible is provided with lower end insulating brick, and shielding alloy, crucible and two are provided between crucible and lower end insulating brick Shielding alloy and ceramics are disposed between the insulating brick of side from outside to inside, sensing heating silk is uniformly provided with ceramics simultaneously And sensing heating silk extends outside body of heater shell, between left side insulating brick and body of heater shell and outside right side insulating brick and body of heater Heat-preservation cotton is provided between shell, high temperature resistant line bank is connected with the sensing heating silk extended outside body of heater shell, terminals Attached bag includes top binding post and side terminal, and side terminal is connected with high temperature resistant line bank, top binding post Installed in the upper end of body of heater housing exterior.

2. electromagnetic induction aluminium melting furnace according to claim 1, it is characterised in that side terminal and high temperature resistant connect Shielding alloy is installed, shielding alloy uses ferronickel molybdenum alloy between line row.

3. electromagnetic induction aluminium melting furnace according to claim 1 and 2, it is characterised in that the body of heater shell uses cast iron material Material makes, and the quantity of top binding post is two.