CN210065876U - Aluminum alloy ingot casting smelting furnace capable of reducing burning loss of aluminum scraps - Google Patents

Abstract

The utility model provides an aluminum alloy ingot casting smelting furnace for reducing burning loss of aluminum scraps, which comprises a furnace body, an aluminum pumping well and a feeding well; the aluminum pumping well and the feeding well are located on one side of the furnace body and are abutted together, the bottom of the aluminum pumping well is communicated with the bottom of the feeding well through a first channel, the bottom of the aluminum pumping well and the bottom of the feeding well are communicated with the furnace body through a second channel and a third channel respectively, a rotating mechanism is stretched into the aluminum pumping well, the rotating mechanism comprises a motor and a high-temperature-resistant rotor driven by the motor, the rotating rotor generates negative pressure in the aluminum pumping well, high-temperature aluminum water in the furnace body is pumped into the feeding well through the second channel, the aluminum pumping well and the first channel in sequence, aluminum scraps are added into the feeding well, the high-temperature aluminum water melts the aluminum scraps into the aluminum water, and finally the aluminum water in the feeding well flows into the furnace body through the third channel without directly contacting with flame in the aluminum scrap melting process, so that the burning loss of the aluminum scraps is reduced.

Description

Aluminum alloy ingot casting smelting furnace capable of reducing burning loss of aluminum scraps

Technical Field

The utility model belongs to the technical field of the aluminum alloy casting, concretely relates to aluminum alloy ingot casting smelting furnace.

Background

The aluminum bar is one of aluminum products, and the casting of the aluminum bar comprises melting, purifying, impurity removing, degassing, deslagging and casting processes, wherein the melting process is completed in a smelting furnace, and raw material aluminum scraps are generally added into the smelting furnace to form molten aluminum. Among the prior art, aluminium bits are reinforced and are directly reinforced from the import of smelting furnace, add after the material, because the low temperature need open the rifle burning with the lifting temperature, aluminium bits direct contact flame causes the scaling loss of aluminium bits great, has 60% aluminium bits approximately to change into the aluminium sediment, causes great loss, increases manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects in the prior art and providing an aluminum alloy ingot casting smelting furnace for reducing the burning loss of aluminum scraps.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

an aluminum alloy ingot smelting furnace capable of reducing burning loss of aluminum scraps comprises a furnace body, an aluminum pumping well and a feeding well; the aluminum pumping well and the feeding well are positioned on one side of the furnace body and are abutted together, the aluminum pumping well and the feeding well are both well-shaped containers with open tops, the bottom of the aluminum pumping well is communicated with the bottom of the feeding well through a first channel, the bottom of the aluminum pumping well and the bottom of the feeding well are respectively communicated with the furnace body through a second channel and a third channel, a rotating mechanism is extended into the aluminum pumping well, the rotating mechanism comprises a motor and a high-temperature-resistant rotor driven by the motor, the rotating rotor generates negative pressure in the aluminum pumping well, high-temperature aluminum water in the furnace body is pumped into the feeding well through the second channel, the aluminum pumping well and the first channel in sequence, aluminum scraps are added into the feeding well, the high-temperature aluminum water melts the aluminum scraps into aluminum water, and finally the aluminum water in the feeding well flows into the furnace body through the third channel.

According to a preferred embodiment of the present invention, the rotor is a high temperature resistant graphite material.

Compared with the prior art, the utility model discloses an aluminum alloy ingot casting smelting furnace and the reinforced method of aluminium bits of reduction aluminium bits scaling loss have following beneficial effect:

the utility model discloses an aluminum alloy ingot smelting furnace sets up in one side of furnace body and takes out the aluminium well and add the material well, and the motor drives high temperature resistant rotor rotation, and rotatory rotor produces the negative pressure in taking out the aluminium well, with the high temperature aluminium water suction in the furnace body in the material well, to add the aluminium bits in the material well, the aluminium well of taking out that produces the negative pressure makes reinforced well form the swirl, and high temperature aluminium water melts into the aluminium water with the aluminium bits, and the aluminium water that forms the swirl in last material well flows into the furnace body, and direct contact flame in the aluminium bits melting process reduces the scaling loss of aluminium bits.

Drawings

Fig. 1 is a top view of the aluminum alloy ingot smelting furnace of the present invention.

Fig. 2 is a cross-sectional view a-a of fig. 1.

Fig. 3 is a cross-sectional view of B-B in fig. 1.

Fig. 4 is a side view at C of fig. 1.

Fig. 5 is a schematic sectional view of an aluminum extraction well and a feeding well according to the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1-5, the aluminum alloy ingot smelting furnace for reducing the burning loss of aluminum scraps of the utility model comprises a furnace body 11, an aluminum pumping well 12 and a feeding well 13; the aluminum pumping well 12 and the charging well 13 are positioned at one side of the furnace body 11 and are close to each other, the aluminum pumping well 12 and the charging well 13 are both well-shaped containers with open tops, the bottom of the aluminum pumping well 12 is communicated with the bottom of the charging well 13 through a first channel 14, the bottom of the aluminum pumping well 12 and the bottom of the charging well 13 are respectively communicated with the furnace body through a second channel 15 and a third channel 16, the rotary mechanism 17 is extended into the aluminum pumping well 12, the rotary mechanism 17 comprises a motor 171 and a high-temperature resistant rotor 172 driven by the motor 171, the rotary rotor 172 generates negative pressure in the aluminum pumping well 12, high-temperature aluminum water in the furnace body 11 is pumped into the feeding well 13 through the second channel 15, the aluminum pumping well 12 and the first channel 14 in sequence, aluminum scraps are added into the feeding well 13, the aluminum scraps are melted into aluminum water by the high-temperature aluminum water, and finally the aluminum water in the feeding well 13 flows into the furnace body 11 through the third channel 16. As a preferred embodiment of the present invention, the rotor 172 is a high temperature resistant graphite material.

Also provided is a novel aluminum scrap feeding method, comprising the following steps: in the aluminum alloy ingot smelting furnace, the motor 171 of the aluminum pumping well 12 is turned on, the motor 171 drives the high temperature resistant rotor 172 to rotate, the rotating rotor 172 generates negative pressure in the aluminum pumping well 12 to pump high temperature aluminum water in the furnace body 11 into the feeding well 13, aluminum scraps are added into the feeding well 13, the aluminum pumping well 12 generating the negative pressure enables the feeding well 13 to form a vortex, the high temperature aluminum water melts the aluminum scraps into aluminum water, and finally the aluminum water forming the vortex in the feeding well 13 flows into the furnace body 11.

The utility model discloses an aluminum alloy ingot smelting furnace sets up in one side of furnace body and takes out the aluminium well and add the material well, and the motor drives high temperature resistant rotor rotation, and rotatory rotor produces the negative pressure in taking out the aluminium well, with the high temperature aluminium water suction in the furnace body in the material well, to add the aluminium bits in the material well, the aluminium well of taking out that produces the negative pressure makes reinforced well form the swirl, and high temperature aluminium water melts into the aluminium water with the aluminium bits, and the aluminium water that forms the swirl in last material well flows into the furnace body, and direct contact flame in the aluminium bits melting process reduces the scaling loss of aluminium bits.

The above detailed description of the embodiments of the present invention is only for exemplary purposes, and the present invention is not limited to the above described embodiments. Any equivalent modifications and substitutions to those skilled in the art are also within the scope of the present invention. Accordingly, variations and modifications in equivalents may be made without departing from the spirit and scope of the invention, which is intended to be covered by the following claims.

Claims (2)

1. An aluminum alloy ingot casting smelting furnace capable of reducing burning loss of aluminum scraps is characterized by comprising a furnace body, an aluminum pumping well and a feeding well; the aluminum pumping well and the feeding well are positioned on one side of the furnace body and are abutted together, the aluminum pumping well and the feeding well are both well-shaped containers with open tops, the bottom of the aluminum pumping well is communicated with the bottom of the feeding well through a first channel, the bottom of the aluminum pumping well and the bottom of the feeding well are respectively communicated with the furnace body through a second channel and a third channel, a rotating mechanism is extended into the aluminum pumping well, the rotating mechanism comprises a motor and a high-temperature-resistant rotor driven by the motor, the rotating rotor generates negative pressure in the aluminum pumping well, high-temperature aluminum water in the furnace body is pumped into the feeding well through the second channel, the aluminum pumping well and the first channel in sequence, aluminum scraps are added into the feeding well, the high-temperature aluminum water melts the aluminum scraps into aluminum water, and finally the aluminum water in the feeding well flows into the furnace body through the third channel.

2. The aluminum alloy ingot smelting furnace for reducing burning loss of aluminum shavings as recited in claim 1, wherein the rotor is a high temperature resistant graphite material.

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