DE853650C - Construction element, in particular for forming walls, ceilings, etc. - Google Patents

Description

Construction element, especially for the formation of walls, ceilings, etc. There are already known methods which serve the goal by enclosing air spaces to give the concrete block better thermal insulation and the density of the component reduce (aerated concrete, foam concrete, lightweight lime concrete).

The invention is based on the currently existing disadvantages the well-known lightweight concretes, as cla are considerable expenditure on operating resources, Time and energy in production and the resulting high production costs and more, switch off if possible.

, Other previously known methods (cell blocks, Ilohlhfosten, hollow beam ceilings, Multi-hole bricks and ielloclistones) have too high a density and too low thermal insulation and are due to strong cold bridges that are inevitable when installing still be increased, interrupted. Known for weight and insulation The advantages of lightweight concrete over older construction methods remain with the building element exist according to the invention and are still to some, described in more detail below Benefits increased.

The invention extends to a simple or continuous Honeycomb-like concrete profile produced by extrusion with a certain Large number of air ducts (honeycombs) with low wall thickness of the ribs and special external forms.

The particular advantages of the component according to the invention are: 'r. They include a certain multitude of small air ducts (honeycombs), and the The ribs between the two have only a small wall thickness. Through this becomes a very small one Reached density, which is that of lightweight concrete equals. In addition, the arrangement of the ribs is chosen so that the heat and A large detour is imposed on the passage of moisture.

2. Despite having a structural composition like that of heavy concrete the structural elements provide better thermal insulation than the well-known hollow blocks and cell blocks.

3. The production costs of the elements are lower than those of lightweight concrete elements.

, 4. The double-angled zigzag shape of the butt joint (Fig. I) there are no thermal bridges in the longitudinal direction. The elements have almost exclusively Floor height, so there are no horizontal butt joints in the wall surface.

5. A high load capacity of the vertically offset elements the elimination of any structural interruption in the longitudinal direction.

6. Saving of working time and material on the construction site. The Elements are joined to one another after coating the butt joints with a binding agent. This minimizes the use of mortar. Alone through their outer shape gives the elements a solid connection in the wall plane, at the same time but also, similar to the tongue and groove system, perpendicular to the wall surface.

Saving of skilled workers. The elements can be trained by Forces are displaced. B. Even, even walls with no visible butt joints good plaster adhesion through the enlargement of the surface by means of profiling. These The plaster base profile (Fig. 4) increases the plaster adhesion.

G. Restriction of cleaning work to a minimum when using of elements with a finished layer of plaster (Fig.3).

ok By laying ceiling tiles and roof tiles (elements with reinforcement) becomes a self-contained reinforcement after all Directions reached (laid beams cannot deflect individually).

i i. The normal elements can still be used on the construction site as required provided with a reinforcement by pulling in, tensioning and casting of tension wires will.

12. Suitability for the construction of transportable and temporary buildings, such as barracks, Barn, shed and the like, using lime or clay as a binder.

13. Can be used for watertight walls with the help of bitum as a binding and insulating agent.

The manufacture of components according to the invention is based on the following processes: aggregates, binders (optional additives for faster Setting) are continuously heated and mixed, mixed with hot water and continuously via a screw, piston or pneumatic pressure system (according to Wahl connected with vibratory shakers) through feed channels in a long, front Pressed open mold. This shaped tube determines the outer shape of the component and its surface. It is closed to the rear by a rear wall. In Long profile iron rods are attached to this rear wall, parallel to the shaped tube run within it and the variety and shape, rectangular, Romboid, undulating or the like. Determine the air ducts (honeycombs).

In the rear end of the shaped tube an additional, the shaped tube fitted punch that moves briefly back and forth, and through which the profile iron rods for the air ducts (honeycombs) are guided appropriately. During its working stroke, the punch closes the one arranged laterally in the shaped tube Feed channels for, dxs concrete mix and press this into the shaped pipe. When the decline of the stamp, the feed channels are released again. This process is repeated .continuously. Due to the length of the shaped tube and profile iron rods and the resulting associated friction, the pressure of the stamp is offered the desired counter pressure.

Shaped tube and profile bars are used to solidify the mixture more quickly heated. In addition, the shaped tube and profile iron rods are kept at a length, which guarantees .that the mixture as it emerges from the front mold tube opening has frozen. The solidified elements emerging endlessly from the shaped tube «-ground now cut to the desired length using a suitable cutting device.

The onward transport of the formed and solidified, but not yet hardened elements happens depending on the type of plant, which in turn is local Adapted to the circumstances and to be selected according to the respective wishes.

The system consists of a long one filled with tensioned steam Tube in which the components slide slowly downwards on a roller system and after a few hours as fully hardened, ready-to-install elements continuously step out. A special shut-off system prevents unnecessary loss of steam.

The system can also consist of a previously known removal system exist, in which the not yet hardened elements on a special provided base first from the horizontal to the vertical position be brought that damage by kinking is excluded. In this vertical position they are placed in coverable pits. The pits can to achieve particularly good concrete quality, if required, about 24 hours later be put under water.

Another possibility for the plant is also a well-known one Method which is similar to the plant described above, with the difference that Instead of the pressed element, the entire molding machine is moved on in a clocked manner while the molding stops.

The method 1 can be applied to all desired requirements on the external shape and size, number, size and profile of the air ducts (honeycombs) as match the nature of the surface and the butt joints.

The form shown in Fig. I is considered to be the most expedient. Other forms are indicated in Fig. 2 as examples.

The volume weight of the components depends on the composition the selected aggregates and binders, the shape, size and number of air ducts (Honeycomb), the thickness of the honeycomb ribs and the surface properties (normal profiling, Plaster base layer or plaster layer).

For laying as ceiling and roof beams as well as on kinks in highly stressed areas Columns are used elements that are reinforced by pulling in reinforcement wires are.

In the air ducts (honeycombs) of the elements are used for this purpose, depending Depending on the desired load capacity, several wires drawn in and in if possible potted in a pre-stressed state.

The reinforcement can be used both within the production program and can be done on site.

The cell elements represent a variant of the normal elements with a A certain number of closed air cells. This is achieved by pushing in of end walls at a desired distance within each Air ducts (honeycombs) through a special process.

The elements are on the construction site at the butt joints with a binding agent painted and at the insertion angle determined by their shape, usually 45 ° to the wall plane, put together.

For normal buildings, the usual binders are used, such as Lime or cement, for transportable buildings (barracks etc.) clay broth or similar, bitum tar (Goudron) for watertight walls (cellars etc.) and tar for roofs with 'higher melting point (adhesive).

Thanks to the double-angled zigzag joint, the elements now adhere parallel and perpendicular to the plane of the wall. That means that in each case only the element that was moved last can be removed from the direction of insertion could.

It is best to lean the elements against a previously created one Alignment frame. Due to their low volume weight, the elements in the Length of one storey height delivered and installed.

The ceiling beams (reinforced elements) are joined together in the same way. Thanks to their interlocking butt joints, they also have a cross connection. It is no longer necessary to pour any gaps because the The beams interlock with practically no joints.

The roof beams (also reinforced) can also be used for sloping roofs without using the wood or iron construction necessary for laying roof tiles.

Should a special heat storage or sound insulation of the component can be achieved, there is the possibility of using the air ducts (honeycombs) of the elements dry sand or the like. to be filled out.

A number of air ducts can be used in the case of columns that are subject to high static loads (Honeycomb) are poured with concrete.

Claims (7)

PATENT CLAIMS: i. Construction element, in particular for the formation of walls, ceilings, etc., of any length from plastic, later hardening compounds, characterized by small cavities of any shape arranged close to one another lengthwise and tooth-shaped abutting sides. 2. Element according to claim i, characterized by a plaster or plaster base layer applied during the manufacturing process. , 3. Element according to claims i and 2, characterized by the low strength the honeycomb ribs. 4. Element according to claims i to 3, characterized in that that the longitudinal joints are only connected with a binding agent during installation. 5. Element according to claims i to 4, characterized in that one optionally Required reinforcement by pulling in and pouring tension wires into the air ducts (Honeycomb) already takes place during the manufacturing process or on the construction site. 6th Element according to claim 5 for use as a ceiling or roof beam or as a support. 7. Element according to claims i to 6, characterized in that it is made of glass is made. B. Element according to claims i to 7, characterized in that that its cavities after joining with other elements, such. B. with dry Sand, peat or concrete can be filled in. G. Element according to the claims i to 8, characterized in that its air ducts (honeycombs) can be divided into individual cells of any size.