DE829352C - Composite stone made of concrete - Google Patents

Description

Composite stone made of concrete The subject of I? Rfinduttg is a composite stone made of concrete for use in double-walled construction with the usual one in between Air gap.

It is known to perform double walls made of simple stones in the form of two wall shells, which include an air gap between them, which is bridged in a suitable manner by connecting webs for reasons of strength. In addition, I) are also oppelwandsteine. ,so-called. Composite stones, known, for example from German Patent 311 751, which can only be produced in relatively difficult molding processes and are therefore correspondingly expensive.

The invention picks up on this and suggests a simple and cheap idea Construction element made of concrete for double walls to be empty, a so-called composite stone, before, the one made of two spaced stones with parallel long sides which are connected by a plurality of reinforcing webs, of which each consists of a short concrete rod or similar material, which is passed through a embedded weak metal rod or wire is reinforced for reinforcement. This Concrete bar is prefabricated, i.e. H. at the moment of the production of the composite stone already present and during the molding process both ends are in the two stones introduced without penetrating them, so that the concrete rod with its reinforcement lie under the outer layer of the stone material. here the concrete bars representing the connecting bridges bridge the stone gaps and for rectangular stones are preferably set in such a way (measure them around the corners occupy a rectangle. The finished composite stone forms stones and webs safe structure. its strength in concrete and its composite in the reinforcement effect the rebar lies. ha the .Material of the webs and the reinforcing metal is completely enclosed at the web ends, there is protection against moisture and air influences on the outsides and rushed practically unlimited life.

In addition, another characteristic of the invention is that that the composite stone according to the invention can also be designed as a corner stone and it has the particular advantage that the air gap in the corner except through the webs are not interrupted in any way, so that there is also, for example, two walls running perpendicular to each other do the uninterrupted air gap Corner results.

In the drawing are several preferred embodiments of composite stones illustrated in more detail according to the invention and forms for their production. There are Fig. I perspective view of a composite stone finite connecting webs according to of the invention, Fig. 2 is a vertical section of Fig. i, Fig. 3 is a horizontal section, both views on a larger scale than Fig. i.

Fig. 4 section of a shape in which a stone according to I # ig. i made 5 and 6, sections at lines 5-5 and 6-6 corresponding to FIG. 4, FIG. 7 perspective view of a corner stone, FIG. 8 section of a shape in a Cornerstone is made.

Fig. cf perspective view of part of the mold, FIGS ioa view and middle section of a modified shape of the reinforcement web, Fig. i t and i i a corresponding views of another modified shape of the web.

The composite stone shown consists in Fig. I to 3 of two rectangular Plates 20 and 21 facing each other at a distance from one another. Every stone is, for example, about 6.5 cm thick, 23 cm high and about 40 cm long; this last one Dimension can be changed according to requirements, without <dimension the other dimensions must be changed significantly. and which can therefore be unified. The two plates are about 12 cm apart.

Each connecting web 22 consists of a short, fine concrete mixture cast rod; a weak steel rod 23 is axially in the .Mixture during the molding process with embedded. Four connecting webs 22 belong in each composite stone, which is appropriate be placed in the corners of the panels. The concrete body of each web in that Example has a square cross-section of about 2.5 x 2.5 cm and 23 cm in length. Of the weak anti-rebar has z. 13. 3 nm 0 and the same length as the concrete curler de. Web so that it extends from one end to the other when axially embedded is.

It can be seen. that the in Fig. i. 2 and 3 composite stone shown is structurally strong, not destroyed by the influence of moisture can be, is easy to use when using the bars as handles and in addition, it is stable enough to withstand transport and \ 'stresses caused by replacement ».

The composite stones can be made with any suitable type of molding boxes and Made pins and manufactured individually or in large numbers in a molding process will. The execution of the forin is shown in Fig. 4. 5 and 6 shown. It is (read a Form from a number of pieces of ice. all put together and in a rush used by operations.

To Fig..l, 5 and 6: The Fo-in consists, as can be seen from Fig. D, 5 and 6, from a floor board 30. which supports and (together with same side on Floor boards lying on the side) arranged on longitudinal supports for 3 s is, v (»s of which one is shown in Fig. 4. Transverse boards 32 which the sides of the Form are along the two sides of the floor board (between the adjacent Floor boards) and also rest on the L'titerstützullgell3i. the Cross boards have vertical 1 # guides that lead through to the example of FIG slight \ 'inkeleiseti are shown. Sub-division plates 3.4 grip with their Ends in these stanchions. The partition plates hardly separate the between the Cross boards at the distance in which the individual stones are formed. the Cross boards also echo protruding edges (in (learn example by light Angle iron), on which one of three parts 36A and = X 3 (in existing Plate is placed.

In your molding process, the floorboards are first placed on the supports 3 s placed, the transverse boards 32 inserted into the long sides of the floor boards, like this that a cross board comes to stand between two floor boards and the dividing plate " 34 inserted into the associated guides 33. The concrete mix is then put into the Spaces of this shape are filled and with the help of a suitable device up to the desired height for the individual stone. The one consisting of three parts Form plate 36-a and 2 X 368 are placed on the edges. Every set of these plates has four inclined Liicher. suitable to accommodate four inclined bars of square cross-section 22, uni the webs in the desired position in the block zii hold. The bars are pushed through the prepared holes and not all the way to the full "run de: lower stone 20 pressed into the concrete. d. 1i. the Bridges must not reach (read floor board 3o.

The free space above the form plate 36A and 2 X 36H into the The upper aids of the webs do not protrude as far as the full 11i) light of the upper stone. is made with concrete mix for stone 21 filled and smoothed out at the top. The stone formed in this way binds iltill. after which the Vorm dismantled and the stone removed will.

As shown, the webs 22 are inclined towards the stones and towards each other arranged. This inclined arrangement facilitates rapid permanent anchoring of the Bridge ends in the stones. This also simplifies the exception of the from three parts »existing Vorinplatten when dismantling the Vorm.

The one in Vig. The I? ckstein shown consists of vain outer \ 'ilikc-llilatte .I0, an inner stone slab 41, a single pair of reinforcing webs between De »atis spaced surfaces of the stones 4o and d i and a single web between an h: n <be of stone 41 and the narrow side read Steillex 40.

I) The parts (irr I # orni again consist of floor boards, 30, () animal boards 32 and lower 1e are supported by the support plates 34. (1'7 31 embedded in grooves of the I ', saves 30 and 32. The bottom of the Villkelstein .fo wir <', formed by a plate 36A, 363, made of two files, supported by the angle irons 3. The inner vertical surface of each Stone .4o is formed by a thin plate 36c, which hangs down from the plate 36A and is supported against a block 44 which at the same time serves to form the end face of the Steillex 41. The block 44 is clad at 4.5 (see also 1 , 'Fig. 9), to serve as a bearing for the web 43, and the plate W = has a') suitable hole for this web.

Heini Vorinen \ verden the molded parts 30, 32 and 34 assembled. The concrete mix for stone 41 is in the form of plate 34 and 1lloc1: .I.I. Itauin poured in and ollen smoothed out. The plates 36A. 3 () u ulld 3 (1 "' are brought into their position and the webs 42 and 43 in the mixture of the stone 41 pressed. Then the mixture for the corner stone 40 is poured in and ollen smoothed out. The stones bind ah, w4) according to the shape disassembled and the composite stones can be removed.

Like fig. 7 shows, the air gap is leaked through the webs 43 continuously.

\ 'erscliiedelle \' e # t- <iilclertnigen in the l #orm of the webs and the steepest are possible. around the finished composite stones (lein intended construction adapt. The webs can have any desired cross-section, except (in the example given square, hold. To the lieisltic # l k <inside the footbridges for relief keep the \ I; tsseiilirodtiktirni hexagonal cross-section; there are old ones too circular cross-sections or triangular ones with a home-made stone stuck out below pointing angle in l- 'rage, so that approximately forming condensation water on the after can collect and drain off the sloping edge. If ge% viinsclit, you can also the webs have a cross-section that grows from the outside towards the center between the stones have to remove the accumulated moisture due to the resulting slope downwards from the stones. Any number can be used in the construction of the composite stone can be used from footbridges across two; for example, there are three webs for some purposes hurried to give sufficient strength.

Other paths than those indicated above can still be taken to ensure that any moisture that occurs is at all a point between the Accumulates stones and from there drips freely into the space in between. For example shows Fig. Lo and ioa a web which is notched halfway along at 50 all around and thereby forms a cavity. in which the moisture collects and that Water can drain from there.

Correspondingly, FIGS. I i and i i a show a web with a raised bar. This bar can be the counterpart for the notch; o, so that in the case of production voit webs of both forms multiple forms, in (lead the notches and ridges of the adjacent webs complement each other, can be used.

In addition, it appears clear that the web ends through the outer surfaces the stones are completely enclosed and therefore no moisture in the joint , between the web ends and the stone material and up to the reinforcement bar. With regard to the interior surfaces, any moisture that occurs will adhere to the Completely remove the webs in the space between the named inner surfaces and in the middle of the webs accumulate so that there is no tendency for moisture to penetrate into the connection points of the inner surfaces has slipped.

Claims (1)

PATENT CLAIMS: 1. Composite stone made of concrete, consisting of two stone slabs at a distance from one another, which are connected to one another with webs. characterized in that the two riser plates are connected to each other by a rapid plurality of prefabricated webs made of concrete or similar shaped material in the manufacture of the stone slabs, the webs being reinforced by weak longitudinally embedded metal rods and not embedded in the stone slabs to the full depth of the same so that the web ends and the reinforcement of the bars are completely enclosed by the outer stone slabs. z. Construction element for double walls made of concrete according to claim 1, characterized in that the webs are embedded in the corners of the stone slabs and are at an oblique angle to the stone slabs. with the arrangement of several webs these are also inclined towards one another. 3. Component according to claim t and 2, characterized in that one of the stone slabs iin cross-section is designed as an angle, the short leg of the angle is held by an additional web, the ends of which on the one hand in the short leg and on the other hand in the end face of the long Legs opposite stone slab are embedded. 4. Component according to claims i to 3, characterized. that the bars, which also serve as handles, are shaped in such a way that moisture appears on them: I collects in the middle of the bar and drips off there. . \ ttzugc1 publications: German 1'atentscliri ft NI-- 31 1 751-