DE529899C - Sewer stone made for itself made of casing and core pipe - Google Patents

Description

Sewer stone made of individually manufactured casing and core pipe The well-known canal stones are also if their casing and core pipe pieces are produced for themselves, uniform pieces of pipe, which when assembled with Tongue and groove interlock. Since tongue and groove are here only on a short one Covering a stretch, the use of mortar is always necessary, of which often Parts got into the molten steel, which later became inclusions in the cast block form.

The use of mortar in assembling is according to the invention made dispensable by the fact that the jacket and core pipes produced for themselves the channel stones on the finished stones separated and displaceable against each other stay. With such stones, the lines can be put together so that each core tube engages so far into the adjacent jacket tube that the between Metal penetrating these two parts solidifies before reaching the outside and so forms a closure so that the use of mortar is not necessary is.

The channel stones can be designed in such a way that mantle and core tubes have the same length and the channels are composed of these tube pieces in this way be that the joints of the core pipes are approximately in the middle of the casing pipes. The pipe pieces are pulled apart so far that at the joints of the Cladding and core pipes gaps remain. if not the closely spaced ones Pieces of pipe just fill the distance between two riser holes. Need riser holes to be attached here only to the jacket pipes, since the core pipes to the Risers can easily be pulled apart.

But the channel stones can also. made in different lengths -and are put together in such a way that the soul tubes when the riser holes coincide von- soul tube and mantle stone by one or more units of length, the mantle stones protrude out and into the adjacent casing pipes. Both soul pipes like In this case, mantle stones also form a seamless line.

In the drawing, Fig. Z - is made up of a separate core tube and jacket tube existing canal stone; Fig. 2 one made of jacket and core tubes v often only one Length of manufactured wire. Fig.3, shows schematically the gradation of the. A coat- and core tubes, Fig. 4 the arrangement of the riser holes. Fig. 5 is an exemplary embodiment a conduit composed of stepped tubes. The one in Fig, The channel stone shown in i consists of a jacket tube i and a separate one therefrom Inner tube 2, which can be pushed into the jacket tube with little play. Both tubes have the same length and are made of the same refractory material. The outside of the jacket tube is preferably cylindrical or forms a prism of hexagonal or octagonal base. This training means towards the previous square design not only a material saving, but it also has the advantage that the wall thickness of the jacket is uniform or almost uniform is even, so that it shrinks evenly when it burns. An uneven one Shrinkage would impair the precise fitting of the soul tube. Just that Cladding stones4 provided with a riser hole are made in the usual way executed square.

Fig. 2 shows a line consisting of such core tubes 2 and jacket tubes i is composed of the same length in such a way that between the soul tubes Spaces 5 and spaces 6 between the casing tubes remain. These Gaps are offset from one another in such a way that each time a gap 5 is approximately in the middle of a jacket pipe and a space 6 about the middle of a Soul pipe lies. The spaces 5 and 6 are depending on the requirements made narrower or wider, the pipes fill the gap when they meet closely between two riser holes 3 accidentally exactly, the gaps disappear Completely.

The line assembled in this way is embedded in sand, for example, A quick-hardening refractory mass is then applied over the expediently. The liquid steel that tries to push its way through the very narrow spaces 7, solidifies completely before it reaches the gaps 6.

In another embodiment, the core tubes and the jacket tubes different lengths, of which the larger are a multiple of the smallest length.

As an exemplary embodiment, FIG. 3 shows four such core tubes 8, 9, io, ii and the associated casing tubes 12, 13, 14, 15, which each time have the same length as the core tubes. For example, the length of the smallest pipes 8 and 12 is equal to 65 mm, the ii of the tubes 9, 12 twice, the Rohre.io, 14 three times and the length of the tubes, 1 5 thereof four times. The casing stones 16 with riser holes 17 have the same length as the casing pipes 13 and carry the riser hole in the middle. Also required are core tube 18 with riser hole ig- in. the middle, which correspond to the length of the core tubes ii, and core tubes 2o of the length of the core tubes io, in which there is half a riser hole 2i at one end.

The line is assembled from these parts, for example in the manner shown in FIG. In this example, a distance of 390 mm between the two riser holes 17 is assumed for the smallest unit of length 8, 12 while maintaining the previously specified length of 65 mm. A casing stone 16 with a length of 130 mm with a riser hole 17 is located under each mold. The space of 26o mm remaining between the two casing stones is filled by a casing pipe 15. A core tube 18 is inserted into the channel stone 16 on the left-hand side in such a way that its hole 19 coincides with the riser hole 17. The core tube protrudes 65 mm into the adjoining jacket tube on each side. In order to show the use of the core tubes 2o, two core tubes 2o are inserted into the channel stone 16 on the right so that their half holes 2i coincide with the riser hole 17. These core pipes protrude 130 mm on each side from the casing stone and into the adjoining casing pipes. The space of 65 mm between the core tubes 2o and 18 is filled by a core tube 8. If a core tube 18 were required to adapt to the spacing of the following mold on the right-hand side, a core tube 9 would be used instead of the core tube 8.

In this way, each riser hole can be divided by 65 mm be bridged by means of these channel stones. Is not the diameter of the molds Divisible by 65 mm, these are set up with little space between them. Will Lines made in funnel pipes by means of the channel stones are natural only stones without riser holes used. The unit length of 65 mm and the gradation in four lengths is chosen here arbitrarily and serves only for explanation.

Claims (3)

PATENT CLAIMS: i. Made of jacket and core pipe manufactured for itself Existing sewer stone, characterized in that jacket and core pipe are separated and can be moved against each other. 2. Sewer block according to claim i, characterized in that that the mantle stones and core tubes provided with riser holes are of different lengths and the ends of the soul tubes around one or several units of length protrude from the mantle stones when the riser holes of both coincide. 3. Line made from sewer stones according to claim i, characterized in that Inner tubes and casing tubes of the same length offset from one another in this way are that the joints of the core pipes are approximately in the middle of the casing pipes and ari cte "n joints between the casing and core pipes gaps (5, 6) remain.