KR100625846B1 - Manufacturing appararus of lump using aluminium scrap and manufacturing method for lump using the same - Google Patents

Abstract

Disclosed is a nodule manufacturing machine using aluminum scrap and a method for producing nodule using the same. The apparatus of the present invention includes a scrap tank into which aluminum scrap is injected; A conveyor belt for conveying scrap; A scrap distributor configured to receive scraps conveyed by the conveyor belt and to distribute the scraps by a predetermined amount; A mold formed such that a hole through which the scrap dispensed from the scrap dispenser is to be fed is penetrated vertically; A mold installed inside the container and installed to move up, down, left, and right; A press for pressing the scrap injected into the hole of the mold; An automatic control system is provided. According to the present invention, the recovery rate is improved by about 5 to 10% compared to the case of casting due to the automated process, thereby maximizing the utilization of aluminum-based scrap, and by producing the nodule, it is possible to increase the loading efficiency of the warehouse due to the volume reduction. In addition, by removing and recovering the machining oil remaining in the aluminum scrap, anti-pollution effect and anti-permeation effect through removal of foreign substances are expected, and it is environmentally friendly.

Aluminum, Scrap, Recycling, Nodule, Automatic Control

Description

Manufacturing appararus of lump using aluminum scrap and manufacturing method for lump using the same}             

1 is a schematic view for explaining a nodule manufacturing machine using aluminum according to an embodiment of the present invention;

Figure 2 is a process chart for explaining the operation of the aluminum nodule manufacturing method, that is, the nodule manufacturing machine using the nodule manufacturing machine according to Figure 1; And

Figure 3 is a graph showing the theoretical density of the nodule produced by the nodule maker and the nodule manufacturing method described above.

The present invention relates to a nodule manufacturing machine using aluminum scrap and a nodule manufacturing method using the same, and more particularly, to a nodule manufacturing machine using an automated nodule manufacturing process using an aluminum scrap and a nodule manufacturing method using the same.

There is a growing interest in recycling resources around the world, and technologies are being developed for practical application. In particular, recycling by the recovery of aluminum scrap, including used aluminum beverage containers, aluminum laminate foil, has been promoted and a treatment method has been proposed.

In the case of recycling, even if the same material is collected from various sources, the quality and quality of secondary ingots finally produced cannot be uniformly guaranteed. However, at present, the concept of "Product to Product", which produces high quality secondary currents and reuses them as raw materials for scraps, is being activated by strict management of scraps and separate collection of scraps by origin.

According to the conventional aluminum scrap processing technology, aluminum scrap is melted after pretreatment. When a low density and high specific surface scrap is charged into the molten metal, the molten metal does not sink into the molten metal but floats on the upper portion of the molten metal so that it is rapidly oxidized. This enormous use of a special melting method. Therefore, aluminum is not recycled properly, and active development of active technology is urgently required for recycling of a considerable amount of aluminum scrap and aluminum industrial waste generated during processing of finished aluminum products.

Accordingly, an aspect of the present invention is to provide an ingot manufacturing apparatus using an aluminum scrap and a method for manufacturing a nod using the same, which can maximize the utilization of aluminum scrap by facilitating the recycling of aluminum scrap and improving the recovery rate. .

In accordance with an aspect of the present invention, there is provided a nodule manufacturing apparatus using aluminum scrap: a scrap tank into which aluminum scrap is added; A conveyor belt for transporting the aluminum scrap put into the scrap tank; A scrap dispenser which receives the aluminum scrap transferred by the conveyor belt and distributes the scrap by a predetermined amount; A mold formed such that a hole through which the aluminum scrap dispensed from the scrap dispenser is input is penetrated vertically; A top and a bottom of the open shape, the mold is installed inside, the container is installed on the bottom surface to move up, down, left and right; A press which is movable up and down to press the aluminum scrap injected into the hole of the mold; And an automatic control system for controlling the operation of the conveyor belt, the scrap dispenser, the container, and the press.

At this time, the conveyor belt is preferably provided with a magnetic bar.

Method for producing a nodule using the nodule manufacturing apparatus according to the present invention for achieving the technical problem is: transfer the aluminum scrap put into the scrap tank to the scrap dispenser using the conveyor belt, a predetermined amount of the scrap dispenser Injecting aluminum scrap into a hole formed in the mold; Moving the container on which the mold into which the aluminum scrap is introduced is installed to a pressing position of the press; Lowering the press to press the aluminum scrap inserted into a hole formed in the mold to form a nod; Lifting the container and the mold along the press; And lifting the press to separate the press from the nodules.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is a schematic view for explaining a nodule manufacturing machine using aluminum according to an embodiment of the present invention.

Referring to Figure 1, ingot manufacturing apparatus using aluminum according to an embodiment of the present invention, the scrap tank 100, the conveyor belt 200, magnetic bar (magnetic bar, 300), scrap distributor 400, mold ( It includes a container 500, a press (600), a nodule transfer device (not shown), and an automatic control system (not shown).

Aluminum scrap is injected into the scrap tank 100.

The conveyor belt 200 is installed to connect the scrap tank 100 and the scrap distributor 400, and transfers the aluminum scrap injected into the scrap tank 100 toward the scrap distributor 400.

The magnetic bar 300 is installed on the conveyor belt 200 to separate the iron contained in the aluminum scrap.

The scrap distributor 400 receives the aluminum scraps transferred by the conveyor belt 200 and distributes the scraps by a predetermined amount to put them in a mold.

The mold has a shape in which a hole is formed to penetrate up and down, and aluminum scrap distributed from the scrap distributor 400 is injected into the hole.

The container 500 is formed in the top and bottom of the open shape, is installed on the bottom surface of the nodule manufacturing machine according to an embodiment of the present invention to move up and down and left and right. The mold is installed inside the container 500.

Press 600 is a 600 ton (ton) class predetermined area including the end is shaped like a hole formed in the mold and can be moved up and down, and presses the aluminum scrap so that the aluminum scrap injected into the hole of the mold becomes a nod. In the process of pressurizing the aluminum scrap by the press 600, the machining oil remaining in the aluminum scrap is removed and recovered. In the press 600, a pump of a direct drive type is used.

The pump used in the press 600 has a large direct drive method and accumulative drive method, which is shown in Table 1 below.

Item Direct drive method Accumulation drive method Speed relationship Speed adjustment The speed does not change even if the load changes, and the speed is adjusted by the discharge amount of the pump. Speed changes with load. Reducer required to adjust speed. Speed up The pressure loss is small because the speeded-up discharge amount changes depending on the load. High speed is possible regardless of pump capacity or number. Energy loss relationship Pressure loss Since the discharge amount of the pump changes with the load, the pressure loss is small. Since the supply pressure from the accumulator is constant, the pressure loss is large when the load is small. Temperature rise of hydraulic circuit during operation Less pressure loss, less temperature loss. The pressure rise is large, so the temperature rise is large. Other Pump capacity Pump capacity required for maximum press speed Energy is accumulated in the accumulator while the press is stopped, thus discharging the average capacity of heat required for one cycle. Load control Easy load adjustment Difficult to adjust the load Hydraulic Dragon Difficult (difficult to oversize) Proper use condition Suitable for long cycles due to low press speeds. Extremely fast speed, suitable for short cycle times.

The nodule conveying apparatus transfers the nodules formed by the pressing of the press 600 to the outside of the nodule maker.

The automatic control system controls the operation of the conveyor belt 200, the distribution of aluminum scrap in the scrap distributor 400, the vertical movement of the container 500, the vertical movement of the press 600 and the operation of the nodule transfer device.

Figure 2 is a process chart for explaining the operation of the aluminum nodule manufacturing method, that is, the nodule manufacturing machine using the nodule manufacturing machine according to FIG.

Referring to FIG. 2 in conjunction with FIG. 1, first, aluminum scrap injected into the scrap tank 100 is transferred to the scrap distributor 300 through the conveyor belt 200 controlled by the automatic control system (S10). Then, the scrap dispenser 400 is put a predetermined amount of aluminum scrap into the hole formed in the mold (S20).

Next, the container 500 in which the mold into which the aluminum scrap is put is installed is moved to a position where the press 600 can be inserted into the hole formed in the mold (hereinafter referred to as the press position of the press) (S30). When the 500 is moved to the pressing position of the press 600, the press 600 is lowered to press the aluminum scrap inserted into the hole formed in the mold (S40).

Subsequently, the aluminum nodules and the press 600 formed by pressing the container 200 and the mold along the press 600 are raised (S50) and the press 600 is raised until the pressed aluminum scrap, that is, the nodules are completely exposed. Will be separated (S60).

Subsequently, the nodule conveying apparatus transfers the nodules to the outside of the nodule maker (S70).

Figure 3 is a graph showing the theoretical density of the nodule produced by the nodule maker and the nodule manufacturing method described above.

Referring to Figure 3, it can be seen that according to the above-described nodule manufacturing apparatus and nodule manufacturing method can be controlled to have a nodule density of 50 to 95%.

As described above, according to the present invention, the recovery rate is improved by 5 to 10% compared to the case of casting due to the automated process, thereby maximizing the utilization of aluminum-based scrap.                     

In addition, by producing a nodule can increase the storage efficiency of the warehouse due to the volume reduction

Furthermore. By removing and recovering the machining oil remaining in the aluminum scrap, anti-pollution effect and anti-permeation effect through removal of foreign substances are expected, and it is eco-friendly.

The present invention is not limited to the above embodiments, and it is apparent that many modifications are possible by those skilled in the art within the technical spirit of the present invention.

Claims (4)

A scrap tank into which aluminum scrap is injected; A conveyor belt for transporting the aluminum scrap put into the scrap tank; A scrap dispenser which receives the aluminum scrap transferred by the conveyor belt and distributes the scrap by a predetermined amount; A mold formed such that a hole through which the aluminum scrap dispensed from the scrap dispenser is input is penetrated vertically; A top and a bottom of the open shape, the mold is installed inside, the container is installed on the bottom surface to move up, down, left and right; A press which is movable up and down to press the aluminum scrap injected into the hole of the mold; An apparatus for producing a nodule using aluminum scrap, the conveyor belt, the scrap distributor, the container, and an automatic control system for controlling the operation of the press. According to claim 1, wherein the conveyor belt is a nodule manufacturing machine utilizing aluminum scrap, characterized in that the magnetic bar is installed. The ingot manufacturing machine using aluminum scrap according to claim 1, wherein a direct drive pump is used for the press. Method for producing a nod using a nodule manufacturing machine utilizing the aluminum scrap according to any one of claims 1 to 3, Transferring the aluminum scrap introduced into the scrap tank to the scrap distributor using the conveyor belt, and injecting a predetermined amount of the aluminum scrap into a hole formed in the mold by the scrap distributor; Moving the container on which the mold into which the aluminum scrap is introduced is installed to a pressing position of the press; Lowering the press to press the aluminum scrap inserted into a hole formed in the mold to form a nod; Lifting the container and the mold along the press; Lifting the press to separate the press from the nod.

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