JP5931422B2 - Raw material supply equipment for aluminum melting furnace - Google Patents

Description

The present invention relates to a melting raw material supply apparatus for dispersing and supplying aluminum scrap generated when machining an aluminum member or an aluminum alloy member with a lathe to an aluminum melting furnace.

2. Description of the Related Art Conventionally, cutting scraps such as aluminum members and aluminum alloy members, scraps, and the like are melted and recycled into ingots or the like to produce products.
At this time, it is necessary to sufficiently stir the molten aluminum in the melting furnace in order to increase the melting yield of aluminum cutting scraps and scraps and make the quality uniform.
Therefore, the molten aluminum in the melting furnace is directly agitated with a stirring blade or the like, or the molten aluminum is agitated by stirring with an electromagnetic induction device or a molten metal stirrer disposed below the bottom of the furnace.
As such a melting furnace, for example, in Patent Document 1 (Japanese Patent Laid-Open No. 2003-329367), in a melting furnace in which a treatment material (melting raw material) of an aluminum alloy such as cutting powder is melted in a spiral, An aluminum melting furnace is described in which a cylindrical material charging unit (melting chamber) 103 is provided upright via a communication path 102 and a plurality of moving magnetic field generators 104 are provided above and below the melting chamber 103.

JP 2003-329367 A

However, in the conventional aluminum melting furnace, as described in the longitudinal sectional view of FIG. 8A, the melting raw material 109 supplied to the melting chamber 103 via the melting raw material supply unit or the like is dropped in the melting raw material supply unit. It falls on the molten metal surface from the mouth 108.
Therefore, as shown in FIG. 8 (b), it falls from the next to the vortex center 107 formed inside the melting chamber 103 and accumulates on the molten aluminum surface to form an undissolved portion 109a. There was a problem of deteriorating efficiency.

The present invention has been made to solve the above-described conventional problems, and is capable of efficiently dispersing and melting an aluminum melting raw material (cutting pieces and chips) dropped and supplied to a melting chamber in molten aluminum. An object of the present invention is to provide a melting raw material supply device for an aluminum melting furnace that is excellent in melting efficiency and economy.

(1) In order to solve the above-mentioned problem, a melting raw material supply apparatus for an aluminum melting furnace of the present invention comprises:
A supply device for continuously charging aluminum melting raw material from above a melting chamber in which molten aluminum is stirred and melted, wherein the melting chamber is for stirring and melting aluminum molten metal, and the processed raw material is supplied from above the melting chamber. A supply unit; a dispersion unit disposed above the dissolution chamber and below a dropping port of the processed material supply unit; a dissolution material passage unit provided in the dispersion unit; and And a hammer for striking the dispersion part .

(2) The melting raw material supply apparatus for an aluminum melting furnace according to the present invention further includes a dispersion unit driving unit that vibrates or rotates the dispersion unit supported movably by the dispersion unit support unit in (1). It is characterized by being.

The melting raw material supply device of the aluminum melting furnace of the present invention includes a melting chamber for stirring and melting molten aluminum, a processed raw material supply unit for supplying an aluminum melting raw material from above the melting chamber, and above the melting chamber, a distribution unit arranged below the treated material feed portion of the input opening, and dissolving the raw material passing portion provided in the dispersing section, and a distribution unit support portion for supporting the distribution unit above the melting chamber, the And a hammer that strikes the dispersion part, so that the dissolved raw material dropped from the dropping port of the treated raw material supply part hits the dispersion part and falls not only directly under the dispersion part but also to the periphery of the dispersion part Thus, the melting raw material can be distributed and supplied over the entire molten metal surface of the melting furnace.
By such an action of the dispersing portion, the melting raw material can be efficiently dispersed and dissolved in the molten aluminum, and a melting raw material supply apparatus for an aluminum melting furnace excellent in melting efficiency and economy can be provided.

It is a plane lineblock diagram of the whole aluminum melting system containing the melting raw material supply device of the aluminum melting furnace concerning the embodiment of the present invention. It is a top view of the melting furnace and holding furnace part shown in FIG. It is a longitudinal cross-sectional view of the melting furnace and holding furnace part shown in FIG. It is a schematic plan view of the melt | dissolution raw material supply apparatus which concerns on embodiment, (a) is a case where several support parts are provided, (b) is a case where a single support part is provided. It is typical sectional explanatory drawing of the melt | dissolution raw material supply apparatus which concerns on embodiment. It is a schematic plan view of the melt | dissolution raw material supply apparatus which concerns on other embodiment. It is a schematic longitudinal cross-sectional view explaining the aluminum melting furnace of patent document 1. It is a schematic longitudinal cross-sectional view explaining the raw material supply state to the melting furnace of FIG.

FIG. 1 is a plan view of the entire aluminum melting system, FIG. 2 is a plan view of the melting furnace and holding furnace portion shown in FIG. 1, and FIG. 3 is a longitudinal sectional view thereof.
FIG. 4 is a schematic plan view of a melting raw material supply apparatus for an aluminum melting furnace according to the embodiment, and FIG. 5 is a schematic cross-sectional explanatory view thereof.
As shown in FIGS. 1 to 5, the melting raw material supply device 10 of the aluminum melting furnace of this embodiment is a melting raw material supply device that continuously feeds an aluminum melting raw material 109 from the upper part of a melting chamber 21 in which molten aluminum is stirred and melted. The melting chamber 21 for stirring and melting the molten aluminum, the processed raw material supply unit 15 for supplying the aluminum melting raw material 109 from above the melting chamber 21, and the dropping of the processed raw material supply unit 15 above the melting chamber 21 The dispersion part 32 arrange | positioned under the opening | mouth 15a, the melt | dissolution raw material passage part 31 provided in the dispersion part 32, and the dispersion | distribution part support part 33 which supports the dispersion part 32 above the dissolution chamber 21 are provided. .

Further, when supplying (dropping) the aluminum melting raw material 109 from above the melting chamber 21 using the processed raw material supply unit 15, first, the aluminum melting raw material 109 such as aluminum chips is put on the melting chamber 21. It is dropped on the dispersed portion 32 formed in the shape of a flat plate with a hole or a bowl shape.
The aluminum melting raw material 109 that has dropped falls through the plurality of melting raw material passage portions 31 provided in the dispersion portion 32 and also drops and falls on the periphery of the dispersion portion 32, so that the molten aluminum raw material 109 falls on the molten metal surface of the melting chamber 21. Dropped.
In this way, the molten raw material supply apparatus 10 of the present invention prevents the undissolved raw material from accumulating in the central portion of the vortex formed in the molten aluminum in the melting chamber 21 by dispersing and dropping the aluminum molten raw material 109. Thus, the aluminum raw material can be uniformly dissolved.

The melting raw material supply device 10 of the aluminum melting furnace of the present embodiment is a device that constitutes a part of the entire aluminum melting system, and melts cutting waste powder such as aluminum or aluminum alloy, scraps, etc., to produce a recycled product. It is.

The aluminum melting system includes a raw material hopper 11 that receives aluminum scrap (melting raw material), a processed raw material supply unit 15 that supplies the melting raw material transferred from the raw material hopper 11 to the melting chamber 21, and a melting chamber that melts the supplied molten raw material. 21, a holding chamber 22 that communicates with the melting chamber 21 to hold the molten aluminum at a predetermined temperature, a degassing chamber 23 that communicates with the holding chamber 22 to degas the molten aluminum, and a molten aluminum that communicates with the degassing chamber 23 It is comprised by the filtration chamber 24 etc. which purify | clean.

The raw material hopper 11 is a container body for receiving aluminum scrap as aluminum melting raw material, and takes out the aluminum melting raw material stored in the bottom of the funnel through a raw material supply feeder 12 such as a screw conveyor. .
The raw material supply feeder 12 is an apparatus that conveys the aluminum melting raw material while extruding it, and is excellent in quantitativeness. Therefore, controllability and stability can be improved when an automatic system is constructed.

The melting chamber 21 is a melting furnace body lined with a refractory material, and is configured integrally with the holding chamber 22 via the communication portion 26a.
The molten aluminum material is supplied to the melting chamber 21 from the upper portion by the processed raw material supply unit 15 at a predetermined supply rate, and a part of the molten aluminum melted through the communication portion 26 a communicating with the holding chamber 22 at the subsequent stage is obtained. The aluminum melting raw material supplied by being refluxed is melted.
The treated raw material supply unit 15 can quantitatively transport the aluminum melt raw material using a transport device such as a screw conveyor, and improves the controllability and stability when constructing an automatic system. be able to.

Further, as shown in the longitudinal sectional view of FIG. 3, a melt stirring device 27 for generating and stirring a vortex in the molten aluminum is disposed below the melting chamber 21 to generate a vortex in the stored aluminum melt. It is like that.
In this way, the molten aluminum urged by the vortex of the molten aluminum generated in the melting chamber 21 is supplied to the lower portion of the holding chamber 22 through the communication portion 26a of the partition plate 26, and The molten aluminum heated to a high temperature by the gas burner at the upper part is returned to the upper part of the melting chamber 21 through the communication part 26 a of the partition plate 26.

The holding chamber 22 is a refractory structure formed in a substantially box shape. The holding chamber 22 includes a heating device such as a gas burner on its ceiling or side wall, and heats molten aluminum supplied from the melting chamber 21 in communication. Thus, the molten aluminum is caused to flow into the subsequent degassing chamber 23.
The heating device (gas burner) provided in the holding chamber 22 is a combustion device that mixes and burns gaseous fuel with oxygen in the air, and can control the molten metal temperature in response to a signal from a temperature sensor.

The degassing chamber 23 includes a furnace body lined with a refractory material, and performs degassing while stirring the molten aluminum supplied from the holding chamber 22 with a ceramic rotor 23a made of silicon carbide or alumina. Device.

The filtration chamber 24 is provided with a substantially box-shaped refractory furnace body, and is configured integrally with the degassing chamber 23 through a communication portion, and the molten aluminum in the degassing chamber 23 that has been degassed is used. Filter through a ceramic filter to remove inclusions in the molten aluminum and store.
In the filtration chamber 24, the molten metal components are made uniform, and the molten aluminum purified by the ceramic filter is discharged from an outlet portion 24a provided on the outlet side to an ingot case or the like.

Furthermore, the melting raw material supply apparatus of the aluminum melting furnace according to the present embodiment is a state in which the melting raw material dropped from the treated raw material supply unit 15 is dispersed on the molten metal surface of the melting chamber 21, as shown in FIG. In order to support the dispersion part 32 to be charged in the upper part of the dissolution chamber 21 and the dispersion part support part 33 provided in the upper part of the dissolution chamber 21 so as to protrude toward the center of the dissolution chamber 21. Have.

The dispersion part 32 has a disk shape or a bowl-like shape with its central part protruding upward, and is dispersed directly above the dropping port of the treated raw material supply part 15 for supplying the aluminum melting raw material to the upper part of the melting chamber 21. It arrange | positions through the part support part 33. FIG.
In addition, the dispersion | distribution part 32 has the melt | dissolution raw material passage part 31 formed in the inside by one or more through-opening, and the melt | dissolution raw material fall-supplied from the processed raw material supply part 15 passes through the melt | dissolution raw material passage part 31. It can be passed.
Examples of the size of the dispersion portion 32 include those having a bottom diameter of about 150 to 300 mm, a thickness of about 5 to 15 mm, and a height protruding from the center of the bottom of about 50 to 100 mm.
It is preferable that the melt | dissolution raw material passage part 31 has a circular cross section whose diameter of a through-hole is about 15-25 mm, and is arrange | positioned on the surface of the dispersion | distribution part 32 so that it may mutually become substantially equal intervals.

As shown in FIG. 4A, the dispersion part support part 33 is disposed so as to protrude from the four positions above the wall part of the dissolution chamber 21 in the inner direction (toward the center of the dissolution chamber 21). It is preferable to use a plate-like material.
In addition, as shown in FIG. 4B, the dispersion part support part 33 can be arranged to project inward from one place above the wall part of the dissolution chamber 21 (the dispersion part is held in place). Form).

The material of the dispersion part 32 and the dispersion part support part 33 is preferably formed using, for example, a metal such as steel or a ceramic such as silica alumina.

Further, as shown in FIG. 6, the melting raw material supply apparatus of the aluminum melting furnace of the present embodiment is arranged such that the dispersion part 32 a is not bowl-shaped or conical, but is directed from the dispersion part support part 33 side toward the center of the melting chamber 21. It is also possible to use a rod-like shape that protrudes.
As a result, the molten aluminum raw material 109 dropped on the molten aluminum surface of the melting chamber 21 via the treated raw material supply unit 15 is dropped into the dispersing portion 32a, and the molten raw material passage portion 31a provided between the dispersing portions 32 is removed. It can be dropped on the molten metal surface of the melting chamber 21 through.

Furthermore, in the melting raw material supply apparatus for the aluminum melting furnace of the present embodiment, the dispersion unit 32 that is movably supported by the dispersion unit support unit 33 provided at the periphery of the melting chamber 21 is vibrated vertically or horizontally. A part drive unit (not shown) can also be provided.
For example, it is possible to drive the dispersion unit 32 at a predetermined frequency or rotation number via a dispersion unit drive unit including a vibrator, a vibration motor, a gear rotation mechanism using an electric motor, or the like that applies vibration.
As a result, the melted raw material deposited or agglomerated in the dispersion part is released, and the molten raw material dropped from the treated raw material supply part 15 is always stably dispersed on the molten metal surface of the melting chamber 21. Can be dropped.

Moreover, in the melting raw material supply apparatus of the aluminum melting furnace of the present embodiment, a hammer (not shown) that strikes the dispersing portion 32 can be provided.
This makes it possible to uniformly disperse the molten raw material on the molten metal surface of the melting chamber while effectively dropping the molten raw material deposited on the dispersion portion, thereby further improving the melting efficiency.
The hammer is arranged on the side of the dispersion part and functions to hit the dispersion part 32.
In this way, the strength of hammering is adjusted according to the working conditions such as the type and form of the aluminum melting raw material supplied through the treated raw material supply unit 15, the supply amount, and the molten material deposition state. Thus, the dissolution efficiency of the dissolved raw material dropped from the processed raw material supply unit 15 can be improved.

As described above, in the melting raw material supply apparatus of the aluminum melting furnace of the embodiment, the molten raw material charged into the melting chamber 20 via the treated raw material supply unit 15 is dropped on the dispersion unit 32 and dispersed. The molten raw material passing part 31 of the dispersion part 32 supported by the part support part 33 and the periphery of the dispersion part are dropped onto the molten metal surface of the melting chamber 21.
In the melting chamber 21, vortex is generated in the molten aluminum stored at the bottom thereof, so that the dropped molten raw material is melted while being drawn into the molten aluminum, and the molten aluminum is put into the holding chamber 23 adjacent to the melting chamber 21. Circulating supply.

In a conventional aluminum melting furnace not provided with such a dispersing portion, as shown in FIG. 8 (a), the molten raw material falling from the processed raw material supply portion 108 is introduced into a range immediately below the dropping port 108a.
That is, as shown in FIG. 8 (b), the melting raw material 109 falls to the center of the vortex and tries to melt into the molten metal. It is difficult to cause dissolved raw material to accumulate at the center of the vortex and form the undissolved portion 109a.
On the other hand, in the melting raw material supply apparatus 10 of the aluminum melting furnace of the present embodiment, the molten raw material dropped from the processed raw material supply unit 15 bumps into the dispersion unit 32, and the bumped molten raw material is directly below the dispersion unit 32. And distributed on the periphery.
In this way, it is possible to disperse the melting raw material, which has been dropped only directly below the dropping port 108a, over the entire surface of the molten metal in the melting chamber, thus enabling efficient melting. It was.

As described above, the melting raw material supply apparatus for an aluminum melting furnace according to the present invention is a melting raw material supply apparatus for an aluminum melting furnace in which an aluminum melting raw material is continuously added to the upper part of a melting chamber in which molten aluminum is stirred and melted. Dispersion part arranged immediately under the dropping opening of the treated raw material supply part for supplying the raw material, a plurality of dissolved raw material passing parts provided dispersed in the dispersing part, and dispersion for supporting the dispersing part in the melting chamber directly under the dropping opening The present invention is provided with a part support part, and can be widely applied to a system for melting aluminum and has high industrial applicability.

DESCRIPTION OF SYMBOLS 10 Melting raw material supply apparatus of aluminum melting furnace 11 Raw material hopper 12 Raw material supply feeder 13 Pretreatment part 15 Treated raw material supply part 15a Drop port 21 Melting chamber 22 Holding chamber 23 Degassing chamber 23a Rotor 23b Molten metal level sensor 24 Filtration chamber 24a Hot water supply part 26 Partition plate 26a Communication part 30 Melting raw material supply device 31 of aluminum melting furnace 31, 31a Melting raw material passage part 32, 32a Dispersing part 33 Dispersing part support part 108 Treated raw material supply part 108a Drop port 109 Aluminum melting raw material 109a Undissolved Part

Claims (2)

A supply device for continuously feeding aluminum melting raw material from above a melting chamber in which molten aluminum is stirred and melted,
A melting chamber for stirring and melting molten aluminum;
A treated raw material supply unit for supplying an aluminum melting raw material from above the melting chamber;
Dispersion unit disposed above the melting chamber and below the dropping port of the treated raw material supply unit;
A dissolved raw material passing part provided in the dispersing part;
A dispersion part support part for supporting the dispersion part above the dissolution chamber;
A hammer for striking the dispersion part;
A melting raw material supply device for an aluminum melting furnace, comprising: 2. The melting raw material supply apparatus for an aluminum melting furnace according to claim 1 , further comprising a dispersion unit drive unit that vibrates or rotates the dispersion unit supported movably by the dispersion unit support unit. .