KR100650605B1 - Suction nozzle to control the powder size and thereof controlling method - Google Patents

Abstract

A suction nozzle for controlling the particle diameter of suction powder and a method for controlling the incoming particle diameter of the same are provided to allow users to selectively suck one with a desired particle size from recycle slag so as to collect the slag with a required particle size. The suction nozzle for controlling the particle diameter of suction powder comprises: a nozzle mouth, into which the slag is sucked; a leg portion, connected to the nozzle mouth so that the distance between the nozzle mouth and a bottom is constantly maintained; and a wire net, arranged in the nozzle mouth so as to prevent the slag with a large particle diameter from being sucked.

Description

Suction nozzle for controlling the particle size of the suction powder and a method for controlling the inlet particle size of the suction nozzle {Suction Nozzle to Control the Powder Size and Thereof Controlling Method}

1 shows the construction of a heavy equipment for moving a nozzle for sucking slag powder and its accessory ducts.

2 shows the shape of a nozzle site according to the invention.

Figure 3 shows an example obtained by calculating the flow rate distribution, pressure distribution and the trace of the powder particles around the nozzle according to the present invention using a computational flow analysis.

Figure 4 shows the correlation of the minimum inlet particle diameter according to the suction flow rate, leg height and nozzle inlet diameter.

The present invention relates to a suction nozzle capable of selectively sucking the powder slag desired by the user when inhaling the recycled slag, and a method for controlling the inlet particle size of the powder slag using such a suction nozzle.

There are various slag treatment processes in the process of adjusting pig iron produced in the blast furnace in the steelmaking process, and the slag generated in this process is collected in various forms in the yard and then recycled. Through various processes in the slag yard, the working environment is poor as a large amount of dust is generated, particularly in the process of processing the slag present in powder form.

In order to improve this, a powdered slag treatment apparatus and a method using a suction vehicle have been proposed in a Korean patent application (in preparation). The nozzle is provided in the powder inlet of the above apparatus.

As a conventional technology, there are various patents (No. 2004-0047765, 2005-0088903, 2004-0047365, 2004-0023284, etc.) regarding nozzles used in household cleaners, but they are all light and sized. There is a remarkable difference in terms of use or purpose from the present invention used for suction of powder slag with nozzles for sucking small impurities.

Recycled slag has a variety of uses depending on its particle size, so it is advantageous to recycle if it can selectively suck slag of the required particle size. An object of the present invention is to provide a method for recovering the slag of the required particle size and the shape of the nozzle that can selectively suck the slag of the desired particle size among the recycled slag.

Suction nozzle for controlling the particle diameter of the suction powder according to the present invention for achieving the above object and the nozzle inlet portion in which the slag is sucked; And a leg connected to the nozzle inlet to maintain a constant distance between the nozzle inlet and the floor.

The nozzle inlet may be provided with a wire mesh for preventing suction of slag having a large particle size.

Next, the method for controlling the inlet particle size of the suction nozzle according to the present invention is connected to the nozzle inlet and the slag suction nozzle in the slag suction nozzle including a leg for maintaining a constant distance between the nozzle inlet and the bottom, the diameter of the nozzle inlet Or it is characterized by adjusting the minimum inlet particle diameter of the inhaled slag by adjusting the height of the legs.

The present invention is a basic technical idea of controlling the particle diameter of the incoming slag by adjusting the height of the leg connected to the nozzle inlet and the nozzle inlet in the nozzle to maintain a constant gap between the nozzle inlet and the floor. .

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

1 shows the construction of a heavy equipment for moving a nozzle for sucking slag powder and its accessory ducts.

1 shows a state of inhaling powder slag using heavy equipment.

In the case of inhaling the powder slag according to the present invention, since the nozzle of the apparatus for sucking a large amount of slag powder and its attached duct are heavy and the temperature of the upper part of the powder slag yard is high, it is difficult for a person to carry out the work by holding the nozzle. Heavy equipment should be used as shown in FIG.

In heavy equipment, the nozzle is connected through a connecting duct and the slag is sucked from the nozzle.

2 shows the shape of a nozzle site according to the invention.

2, the legs were installed to maintain a constant gap between the nozzle inlet and the floor.

In the nozzle according to the present invention, the diameter of the inlet portion must be adjusted to control the flow velocity of the nozzle inlet portion. In FIG. 2, the diameter of the inlet is denoted by D. FIG. Leg height (H) is also subject to regulation, the leg height has a constant relationship with the minimum inflow flow as will be described later.

In the present invention, the particle size of the inhaled slag can be selected by adjusting the diameter (D) and the height (H) of the inlet. This will be described in detail after reviewing the relationship between the diameter D or the leg height H and the minimum inflow particle diameter of the inlet portion.

In addition, in the nozzle according to the present invention, it is preferable to install a wire mesh at the nozzle inlet so that unwanted slag of large particle size does not flow in. 2 shows a state in which such a wire mesh is installed.

Figure 3 shows an example obtained by calculating the flow rate distribution, pressure distribution and the trace of the powder particles around the nozzle according to the present invention using a computational flow analysis. That is, Figure 3 shows the trajectory of the flow rate distribution, pressure distribution and powder particles in the nozzle according to the present invention as shown in FIG.

Figure 4 shows the correlation of the minimum inlet particle diameter according to the suction flow rate, leg height and nozzle inlet diameter.

In Fig. 4, three graphs ①, ②, and ③ are shown. ① is a graph showing the relationship between the suction flow rate and the minimum inlet particle diameter, ② is a graph showing the relationship between the leg height and the minimum inlet particle diameter, and ③ is the nozzle inlet diameter. Is a graph showing the relationship between and minimum inflow particle diameter.

4, the minimum inlet particle diameter increases as the suction flow rate increases, but the increasing slope decreases as the suction flow rate increases.

Looking at the graph ② of Figure 4, the minimum inlet particle diameter is inversely proportional to the height of the leg.

4, the minimum inlet particle diameter is inversely proportional to the nozzle inlet diameter.

When the flow rate conditions of the suction vehicle and the size of the slag particles to be sucked are determined, the desired leg height and inlet diameter of the nozzle can be obtained from the relationship shown in the graph shown in FIG. 4.

In the above, the suction nozzle for controlling the particle diameter of the suction powder and the method of controlling the inlet particle size of the suction nozzle according to the present invention have been described. The scope of the present invention is not limited to the parts described in the present application, but includes all modified and modified forms that belong to the technical spirit described in the specification and the appended claims.

According to the present invention, the user can selectively inhale the desired particle size from the recycled slag.

Claims (3)

A nozzle inlet portion through which the slag is sucked; And a leg connected to the nozzle inlet to maintain a constant gap between the nozzle inlet and the floor. The method according to claim 1, wherein the nozzle inlet, Suction nozzle for controlling the particle size of the suction powder, characterized in that the wire mesh for preventing the suction of slag of large particle size is installed. In a slag suction nozzle connected to the nozzle inlet and including a leg for maintaining a constant distance between the nozzle inlet and the bottom, Method for controlling the inlet particle size of the suction nozzle, characterized in that for adjusting the minimum inlet particle diameter of the suctioned slag by adjusting the diameter or the height of the legs of the nozzle inlet.

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