DE2606357C2 - Channel end blocks for the increasing pouring of liquid steel in molds - Google Patents

Description

The invention relates to a channel end block with a plurality of riser holes directed vertically upwards for the increasing pouring of liquid steel in molds.

The flow of liquid steel into the mold is controlled by the construction of the channel end blocks co-determined. This also has an influence on the solidification structure of the block, especially the block crust. The block crust is created by a flow directed against the mold wall adversely affected. Different constructions for channel end blocks are z. B. in the reference "Blast Furnace and Steel Plant", August 1950, pp. 903/904. For a ingot mold, a Channel stone used, which has a vertically upward rising hole, which at the end of the Channel is arranged. Usually the riser hole has a round cross-section. It is known to be about the vertical inlet length, d. H. over the upward leadership influence on the course of the Can take direction of flow. So shows z. B. the aforementioned reference that the channel end stone with a riser hole (Ab. 3, p. 903) the vertical inlet length is roughly the same as the diameter of the riser hole is equivalent to. It is also known to use channel end blocks with several vertical riser holes for slab formats to be provided, these being provided evenly over the length of the channel end stone. That's how they are Applicant for the casting of chrome-nickel steels, channel end blocks with up to 8 riser holes per mold known.

The present invention is based on the object of developing a channel end block which, while being economically manufactured, ensures a uniform flow and thus leads to a block crust with little disruption.
This object is achieved according to the invention in that H ₃ Q is the flow cross-section of the in the inflow

last climbing hole opposite the penultimate climbing hole

Si is decreased by 04 to 0.7 times. Because the riser holes

usually have a circular cross-section,

- Calculates from this cross-section information an on

'0 63 to 083 reduced diameter. Particularly

hpvorzuet will be a reduction in diameter

Sfr the last riser to a value of 0.65 to 0.75

the diameter of the penultimate riser hole. the

, o proposed coordination of the two Ste.gloch-

diameter causes a more vertical flow,

with an even flow throughout the block

educate is based on observations made by the applicant

would be with the arrangement of two riser holes

flow with the same diameter, which

'partly on the one arranged in the inflow direction

Mold wall would be directed.

The particular advantage of the construction according to the invention is that in combination with the , o coordinated dimension of the riser hole diameter is the vertical inlet length of the two riser holes can be reduced. According to a preferred embodiment, the perpendicular to upstream inlet length of each of the two riser holes 040 to 0.60 of the diameter of the penultimate one Riser hole Values of 0.43 to 0.50 of the diameter of the penultimate riser hole are preferred.

A channel end block with two riser holes is recommended for the common molds, so only that -to the last and the penultimate riser hole are provided. Likewise, this canal stone can with satisfaction Slab molds are provided. Should slab molds be cast in which more than two Riser holes are desirable, the cross-section of the remaining riser holes corresponds essentially the cross section of the penultimate riser hole. For the desired vertical direction of flow it is sufficient w.-ΐηη just the diameter of the last one Riser hole is reduced.

do The distance between the penultimate and the last riser hole is to be coordinated so that the two outflowing partial flows merge into one can unite the beam directed vertically upwards. Preferably the distance between the penultimate and last riser hole at least the diameter of the last riser hole and a maximum of the The diameter of the penultimate riser hole. At an inflow speed of the steel from 0.2 to 05m / sec a sewer end stone has proven to be advantageous, which with a square cross-section a The outside dimension is 100 mm and the diameter of the penultimate riser hole is about 50 mm

amounts to.

The particular advantages of the subject matter of the invention

can be seen in the fact that with relatively small and thus economical wall thicknesses, i. H. at a limited vertically upwardly directed inlet length an evenly vertically upwardly directed Flow is caused. It has been shown that with

such a channel end stone advantages can be achieved in particular in the production of rails. the More than 80% of the surface defects on rails can be traced back to metallurgical defects will. It has been shown that the inventive

(> 5 measured the proposed channel end stones, the surface defects typical of rails could be reduced by more than 20%.
The invention is based on the in the

Figure illustrated embodiment explained. Fs shows:

Fig. 1 is a longitudinal section through the channel end block and

F i g. 2 a cross section.

The channel end stone 1 has a last riser hole 2 and a penultimate riser hole 3, the vertical! are directed upwards. The vertical inlet length is 4 about 0.5 χ the diameter of the penultimate riser hole. In the embodiment shown, the penultimate riser hole had a diameter of 50 mm, the last Riser hole a diameter of 35 mm, whereby the vertical inlet length for both riser holes 25 mm fraud. The distance between the two riser holes was 40 mm. The square outside dimension was 100 mm.

For this] sheet of drawings

Claims (4)

Patent claims: 1. Canal end stone with several vertically upwardly directed riser holes for the ste'gende pouring of liquid steel in molds uj la characterized in that the flow cross-section of the last dough hole in the inflow direction (2) compared to the penultimate riser hole (3) is 0.4 is reduced to 0.7 times. _Ha Hnrrh 2. Channel end block according to claim 1, characterized in that two riser holes (2,3) are provided and the inlet length (4) directed vertically upwards of each of the two riser holes (2, 3) 0.40 to 0.60 χ diameter of the penultimate dough hole (3) matters. , 3. Kanalendstein according to claim 1 or 2, characterized in that the distance between the penultimate and last riser hole (2, 3) at least the diameter of the last riser hole (2) and corresponds at most to the diameter of the penultimate riser hole (3). 4 channel end stone according to one of claims 1 to 3, characterized in that at a flow velocity of the steel into the mold from 0.2 to 05m / sec of the channel stone with a square cross-section has an external dimension of 100 mm and a penultimate riser hole (3) with about 50 mm.