RU2086353C1 - Attachment for providing non-restricted flow in metallurgical vessels with bottom closure - Google Patents

Abstract

The invention relates to a plugging means for metallurgical vessels with a bottom closure, the plugging means being intended for the reliable freeing of the pouring channel on opening the bottom closure. The plugging means according to the invention consists of a main body (1) of shell-like or tubular design which, at its two ends, has bent folds (2) at an angle of about 90 DEG to the inner circumferential surface, and a flexible hose (3) filled with slide sand or some other filling material is placed in the main body (1) formed in this way. <IMAGE>

Description

 The invention relates to a device for providing a free flow for metallurgical vessels with a bottom shutter for reliable release of the casting channel after opening the bottom shutter.

 In order to prevent solidification of liquid metal in the pouring channel of a metallurgical vessel with a bottom shutter while it is in the vessel before opening the bottom shutter, a method for supplying heat-resistant filler to the casting channel is known. In this case, the filler, as a rule, is slide sand, which, when the bottom shutter is opened, flows first from the casting channel and this ensures free flow of the liquid metal following it. The filler in this case, either from above with the vessel standing, or from the bottom or the vessel lying and the gate open, is loaded into the filling channel. It is known to use closed shells for feeding gate sand through a bottom gate. Solutions of this kind are published, for example, in DD-PS 117379 and DD-PS 280270. The manufacture of such shells is usually expensive and requires some care to achieve high accuracy of opening when applied.

 The objective of the invention is to provide a device for providing free flow for metallurgical vessels with a bottom closure, applicable regardless of the wear state of the casting channel, ensuring reliable filling of the casting channel and characterized by simple use and economical manufacture.

According to the invention, the problem is solved by a device for providing a free flow, consisting of a cup-shaped to tubular main body with a longitudinal slot, which is adapted to the filling channel that changes during wear and has segments bent at an angle of approximately 90 ^° to the inner surface on one or both sides casing.

 The dimensions of the main body, mainly made of steel sheet material, are determined in such a way that the surface of the casing is at least equal to or greater than half of the inner surface of the casting channel, filled with heat-resistant slate sand or other filler, and it expediently enters the inside of the casting vessel so that take a sufficient amount of filler. The device for providing free flow according to the invention next to a cup-shaped or tubular with a longitudinal slotted body consists of a flexible hose filled with the required amount of slate sand. The flexible hose is expediently made of a material which, under the influence of temperature in the pouring channel, melts or burns after a short time. It is introduced into the main body and is thus fed into the casting channel with the casting ladle lying and the bottom shutter open, and when using the main body with a one-sided bent segment, it is located in the direction of the bottom shutter. Immediately after this, after closing the bottom gate, the casting ladle is lifted, and the slide sand completely fills the casting channel. Due to the simple configuration of the main body, which has a cup-shaped to tubular shape with a longitudinal slot and a metered supply of the required amount of gate sand using a flexible hose, an extremely practical solution was found for filling the filling channel of a metallurgical vessel with a bottom shutter.

In FIG. 1 is a perspective view of a fixture for providing free flow with a half-shell design of the main body; in FIG. 2
a perspective view of the device for providing free flow with a cup-shaped design of the main body; in FIG. 3 is a perspective view of a device for providing free flow with an almost tubular main body; in FIG. 4 placement of devices to ensure free flow in the filling channel.

The device for ensuring free flow consists of a main body 1 having a cup-shaped or tubular with a longitudinal slot made of sheet material. Figure 1-3 shows the possible forms of execution of the main body 1. The end sides of the main body 1 are provided with segments 2 at an angle of 90 ^° to the inner surface of the main body 1. As a sheet material, a steel sheet is mainly used to provide a sufficient service life of the main body 1 before raising the filling vessel 6. The length of the main body 1 is determined in such a way that it enters the inside of the vessel through the filling channel 4 of the filling vessel 6 with a bottom shutter 7, which allows receiving a sufficient amount of gate sand 5. The required amount of gate sand is in the flexible hose 3, consisting of a light combustible or non-heat-resistant material (plastic film). A film hose 3 with a metered amount of slide sand 5 is inserted into the half-shell main body 1 (Fig. 1) and in this position, when the casting vessel 6 is lying and the bottom shutter 7 is open, it is fed into the casting channel 4. The bottom shutter 7 is closed and lifted immediately pouring vessel 6, and the gate sand 5 released during the combustion of the film hose 3 completely fills the pouring channel 4.

 In other types of execution (Fig. 2,3), the surface of the casing of the main body 1 can be bent beyond the half-shell version. To insert the hose 3, only a short-term extension of the main body 1 is required, but this can be avoided by using the main body 1 with a one-sided bending segment and possibly inserting the hose 3 through the end side without bent segments or by forming a second bent segment after insertion from the end side.

Claims (2)

1. A device for providing a free flow for metallurgical vessels with a bottom closure, comprising a main body of tubular shape with a filler installed in a pouring cup, characterized in that the main body is cup-shaped or tubular with a longitudinal slot, on one or both end sides it is bent under 90 ^° to the inner side of the surface of the housing segments, and inside the housing is a hose filled with the required amount of gate sand or other suitable filler.  2. The device according to claim 1, characterized in that the surface of the main body is at least equal to or greater than half the inner surface of the glass.

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