DE2360671A1 - CONCRETE PIPE OR DGL - Google Patents

Description

Robert Henry Elvery In Gerrards Cross, Buckinghamshire, and Mono Concrete Limited of West Drayton, Middlesex, UK

Sewer pipe made of concrete or the like.

The invention relates to sewer pipes for liquid -pipes, especially on drilling from concrete, other cementitious Building materials, also made of ceramic or similar material, which are usually laid underground,

The invention is primarily aimed at designing the cross-section of such sewer pipes in such a way that they have a considerably higher level than normal sewer pipes of circular cross-section with the same wall thickness and accordingly absorb greater vertical loads or at the less stressed points, especially on the sides, with a smaller wall thickness made vQrden / k *? **** ""

Tests have shown that a cast, buried concrete ring at high loading pressures, the breaking strength of the concrete body, first at the highest and / or

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cracks or is dented at the deepest point of the cross-section . ■ ·

The invention overcomes this disadvantage and characterizes in that the sewer pipe is essentially circular in cross-section at two opposite points, which after the laying of the drill body should be above and below, has internal reinforcements.

The size of these reinforcements depends on various factors, for example the Torah inner and outer diameter of the pipe body, the composition and strength of the cast concrete. the position, type and strength of any reinforcement layers, etc. The maximum thickness of the opposing reinforcements can be between 20 % and 100 % greater than the normal wall thickness in the remaining area, i.e. on the rare sites of the annular drilling cross-section.

It has been found that the slight increase in weight of the finished sewer pipe body, which is connected with the internal reinforcement mentioned at opposite, upper and lower points of the pipe cross-section, results in a considerable increase in the strength against breakage under vertical loads. It has been shown, for example, that an increase in weight of the finished sewer pipe body by about 5 % due to the opposite. Waad reinforcement results in an increase in the breaking resistance of about 55% at places in danger of breaking, and that an increase in weight by about 15 % results in an increase in breaking resistance of 165 % . This allows sewer pipes for certain

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Purposes with sufficient Bruoh resistance with considerably reduced! Material to produce on wall than it is required for sewer pipes of cylindrical cross-section with uniform wall thickness with the same strength. Therefore, a concrete pipe of circular cross-section and with a ratio of the wall thickness to the inner diameter of O ₉ I can be produced by a sewer pipe according to the invention with enlarged wall thicknesses opposite each other at the top and bottom with the same breaking strength with a weight saving of about 30 % .

In the case of sewer pipes made of reinforced concrete with upper and lower reinforcement inserts, the wall thickness can also be be reduced, or the upper and lower wall thickness enlargements can then even be omitted.

Appropriately, the upper and lower wall thickness enlargements are designed so that they, opposite * form flat inner surfaces of the cylindrical drill body.

As mentioned earlier, the extent to which the wall thickness increases depends among other things on the inside diameter and the outside diameter and thus on the wall thickness in the »stilchen Area of the cross-section. The opposing, upper and lower wall thickness increases also affect the. Distribution of the bending forces in the pipe body, which are to the reinforced Places larger and smaller in the other area of the Eohrquersöhnittes than in an all-round cylindrical Cross-section of the same wall thickness.

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The drawing shows two examples of implementation of the cross-section of a sewer pipe according to the invention, which in FIGS. 1 and 2 each have a different cross-section Dimensions are shown.

In the case of the pipes according to FIGS. 1 and 2, which are shown in the installed state, the pipe wall is at C and I, ie above and below, reinforced on the inside, the wall reinforcement / is the same in both cases, but this is not the case essential. The reinforcement at G can be greater than at I »In both cases, the wall reinforcements create flat inner surfaces ρ, ρ formed at diametrically opposite points. These flat inner surfaces lie like a chord in the pipe cross-section and parallel to each other.

The central angle 0Y formed by the chord length can be between 20 ° and 90 °. It is somewhat smaller in FIG. 1 than in FIG. 2. The percentage wall reinforcement is accordingly in Fig. 2, which represents the preferred embodiment, also larger than in Fig. 1. The wall thickness can vary within wide limits be measured.

In practice, the ends of the sewer pipes are provided with the usual socket connection. When laying a string of pipes ensure that the inner wall reinforcements of all pipes are in the same position in the circumferential direction. For this purpose, the ends of the pipes in the area of the socket connection be provided with an external marking.

The invention has the advantage that the tubes with the usual

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Molding or casting machines with minor modifications to the core shape can be produced. The pipes can be produced by a process that is known in the art as the VIPBESS process is known.

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Claims (6)

236067Ί Claims: 1. The sewer pipe to be laid underground is essentially circular cross-section, especially for passing through Liquids or gases »characterized in that the pipe wall inside at opposite points, which are after Laying are located above and below, is reinforced on the inside. 2. Sewer pipe according to claim 1, characterized in that its maximum wall thickness at the thickened points is between 20 % and 100 % greater than int the cylindrical area on the sides of the pipe wall. 3 »Sewer pipe according to claim 2, characterized in that the opposing wall reinforcements in the interior of the drill body are delimited by flat surfaces, 4. Sewer pipe according to claim 3 »characterized in that the flat inner surfaces of the wall reinforcements are parallel to each other. 5 * sewer pipe according to claim 4-, characterized in that the central angle of the pipe body in the area of the wall reinforcement lie between 20 ° and 90 ° 6. Sewer pipe according to one of the preceding claims, characterized characterized in that: the opposing wall reinforcements are larger in one place than in the other, e.g. larger above than below, 409824/0831