DE3918130A1 - Prefabricated steel reinforced cement concrete compartment e.g. garage - comprising walls and roof of lightweight concrete contg. polystyrene and reinforcing fibre - Google Patents

Abstract

Steel-reinforced cement concrete compartment consists of a building with side walls (3,4), back wall (7) and roof (12) of structural lightweight concrete. The concrete is based on polystyrene foam granules, cement, a relatively small fraction of lightweight aggregate, an alkaline textile fibre reinforcement and a flow aid. The aggregate is fly and is added in an amt. of ca. 800 kg/500 cdm polystyrene foam, whilst cement is used in an amt. of 400-500, pref. 450 kg/500 cdm polystyrene foam. Polypropylene fibres are used as reinforcement. The concrete also contains sand. The compartment is monolithic. It has a floor of normal or heavy concrete with its reinforcement joined to that of the monolith, the proportion of cement and lightweight aggregate being reduced. USE/ADVANTAGE - The compartment is useful e.g. for prefabricated garages. It avoids the usual main problems of cracking when the concrete sets, sealing the roof and the wt. problem for transport.

Description

The invention relates to a reinforced concrete room cell according to the preamble of claim 1.

The reinforced concrete room cell according to the invention is trained to be manufactured using large equipment and can be transported and set up. It is therefore monolithic in the sense that at least their long walls, a transverse wall full constantly and a gate opening, as well as a ceiling one Form unit with a prefabricated Base plate is united. In the case of the invention Prefabricated garage can also all windows of the Building structure including the floor a structural unit and form the monolith.

These designs of reinforced concrete room cells are in particular known especially in prefabricated reinforced concrete garages. At Reinforced concrete room cells with the dimensions of single garages or appropriately sized, in shape different building cells are used for manufacturing in usually steel formwork in which the building units be produced monolithically or in which a Monolith is combined with the base plate. transport and installation of these reinforced concrete room cells usually with the help of trucks with a body  to raise for loading or lowering the room cell are provided on prepared foundations. To the large devices also belong to these vehicles Low loaders and cranes with which reinforced concrete room cells can be loaded, unloaded and set up, represent the special designs. In the area of Reinforced concrete room cells include all the way mentioned large garages e.g. for tractors, trailers and corresponding vehicles, but also by doubles parkers, which are composed of several parts.

These reinforced concrete room cells according to the invention can up to the entrance i.e. usually five pages be closed, but in the side walls Openings can be provided for the cells construction are required. Such openings can complement each other in neighboring room cells or with Doors or gates are locked.

The previously known reinforced concrete room cells consist of a constructive concrete, i.e. from a concrete certain load-bearing capacity, so that the concrete compressive forces can accommodate and the reinforcements push and pull endures tensions. It is known, so-called Light concrete instead of normal concrete or heavy to use concrete. Lightweight concrete has a density of approx. 2.0 t / cbm, while normal and heavy concrete densities  have between 2.0 and 2.8 t / cbm and more. in the general are steel with large equipment precast concrete garages to reduce weight thin lig and therefore often made of heavy concrete does. Lightweight concrete of a known type is made using supplements e.g. in the form of pumice stone or expanded clay or expanded slate manufactured, but also contains significant amounts Sand and possibly other surcharges to the to achieve the required density.

The manufacture of reinforced concrete garages is therefore one Problem than especially with the monolithic steel concrete room cells cracks occur in the hardened concrete, which have to be closed in the final production. To Various measures are suitable, but more expensive these consistently manufacture because they are additional Demand work and material. Another Problem results from the considerable weight even thin shelled reinforced concrete room cells, because the permissible maximum loads of the transport vehicles is sufficient and in cases of inaccurate production slightly over steps, especially if the steel formwork are not sufficiently true to size.

In most cases need reinforced concrete space cells an elaborate roof covering to the one to prevent penetration of rainwater. This roof  Drainage often gives the shape of the steel concrete room cell, especially in the prefabricated garage at least the roof in front, where one has pent roofs preferred and an internal or external drainage provides.

The invention is based, so far the task main problems of reinforced concrete space cells, i.e. the formation of cracks when hardening the Concrete, the required roof waterproofing and the Weight problems during transportation and installation to eliminate such reinforced concrete room cells and to take advantage of the resulting benefits.

The invention solves this problem with the features of claim 1. Further features of the invention are Subject of the subclaims.

According to the invention, the strength of the concrete is reduced, but reaches values of approx. 15 to 18 kN / m ³ , so that there is a structural floor that forms a bond with the usual reinforcement. However, the concrete is considerably lighter due to the absence of heavy aggregates, in particular in the form of gravel, but also of sand and their substitution by granulated plastic made of expanded polystyrene. The light aggregate serves to increase the density, but the amount is sufficient and is cemented with the plastic particles by the added cement. The reinforcement made of textile fiber ensures cohesion. The superplasticizer keeps the fresh concrete in a pourable state by reducing the surface tension.

As a result, the reinforced concrete room according to the invention, in particular prefabricated garages, can be made monolithically and preferably, as is known, vertically or horizontally with prefabricated floors by pouring the concrete into a steel formwork, shaking the formwork, optionally heating the formwork and hardening inside and outside the formwork. After demoulding, these room cells reach bulk densities of approx. 12 kN / m ³ , which increase to the specified end values during hardening.

While it is known to be based on a concrete for construction purposes foamed polystyrene particles, sand and cement (EU-PA 0 60 950), but this is the case not a constructive concrete, but one Building material with uneven distribution of the plastic particles and insufficient strength due to low adhesion between cement and plastic. Des half has been tried, the strength and the adhesion  by improving that the plastic particles pretreated with an aqueous solution and with cement before covering them with the cement and the mix mixed water. But such concrete is also missing because of his art between 60% and 70% the prerequisites for a constructive Concrete with the for the production of reinforced concrete room cells crucial processing options.

Also the previously known proposal (EU-PA 0 31 365), the plastic particles with a bituminous bandage medium-containing binder to coat one the adhesion of the cement to the plastic part improving, but on the other hand packing up Avoiding the plastic particles is for her position of reinforced concrete room cells unsuitable because only objects can be made from them Form can be obtained by external pressure. The Manufacturing of room cells from reinforced concrete is based on this Way not feasible.

Monolithic reinforced concrete room cells according to the invention have their own in spite of their high plastic content constructive lightweight or heavy concrete, however, have a significantly lower weight that hardly is more than 50%.  

It has surprisingly been found that the type of reinforced concrete room cells, the concrete of which has a bulk density of only about 12 kN / m ³ , do not form cracks during the hardening of the concrete. In contrast to light and normal concrete, such room cells are absolutely watertight and therefore do not require any special roof covering. Since they are considerably lighter, namely only about half as heavy as the conventional lightweight concrete room cells, reinforced concrete room cells that are up to twice as large can be transported and set up with the large devices that could previously only be used for normal cells.

The invention has the advantage that most of the problems of conventional steelbees described at the beginning Tonraumzellen are eliminated with the invention. Which he Reinforced concrete room cells according to the invention also offer also ecological advantages. They have high heat and Sound insulation values. You can waste polystyrene, which in considerable quantities in the packaging industry incurred and difficult to dispose of, a sensible one Perform use. They allow a simplified Manufacturing and allow because of their light weight transport using light transport vehicles where previously heavy equipment was required. Since that Roof is completely waterproof, the previous desk needs roof shape not to be applied. The strength of the  for the preferably monolithic body of steel concrete room cell, for example from the roof and the Concrete used is included LB 15 to 18 and are usually sufficient to Endure loads that e.g. the garage floor subject to.

With the features of claim 2 is an easy suggested which one over others easily Supplements are often more readily available and are latent hydraulic properties is suitable the cement to reduce the proportion.

This proportion of cement suitably corresponds to that in Claim 3 specified size, the low values are preferred because cement is decisive Lich determines the cost.

The execution of the textile fiber operated according to claim 4 a plastic fiber, which ver the crack formation prevents. It expediently has a stack length of 24 mm.

The alternatives of claim 2 are for such cases thought where higher loads can be expected and hence the base plate made of a concrete of higher strength must exist.  

The production of the new reinforced concrete room cells in Such steel formwork has already been used in the previous used light, normal and heavy concrete segregation appearances especially in the parts below of the building, where there is bleeding of the concrete, i.e. a loss of cement slurry occurs. To such To counteract phenomena, it may be advisable to add small amounts of sand to the concrete, however the weight does not increase significantly. This execution Forms of the invention are the subject of claim 6.

The watertightness of the building given by the concrete body enables a simplified embodiment the reinforced concrete room cells according to the invention for Drainage of rainwater, which is the subject of Claim 7 is.

Exploiting the advantages of the steel according to the invention concrete room cell need not be limited to that to reduce the weight of a prefabricated reinforced concrete garage. Rather, this weight reduction is normal dimensions of room cells and garages and their special Manufactures so large that they add weight in the interests of other benefits. One of these Embodiments of the invention are the subject of Claim 8. It is intended to the builders so far only possible planting together on site  to deliver with the reinforced concrete room cell or the delivery with the necessary basic requirements tongues, especially the planting soil belongs. Such an ecological space through planting cell, especially prefabricated garage can be very in many cases do not water regularly from above, so that the plants have longer dry periods can survive everything in summer. Remedy then the features of claim 9.

That for irrigation to preserve the plants growth necessary water can be by an have the direction ready, which the builder together is delivered with the prefabricated garage and with this connected is. The features of claim 10 denotes NEN such a reinforced concrete room cell. Here can do this for the irrigation of the planting rainwater from the roof be or even process water that turned into the tank is filled.

The water can be supplied to the plants operate a technique that the surface tension uses the water to generate its locomotion. For this purpose, the features of claim 11, the one largely automatic irrigation system, which can be switched on and off by shut-off valves.

In the following the invention based on an off management example based on the figures in the drawing explained in more detail; show it

Fig. 1 is a perspective view of an interior view of the reinforced concrete prefabricated garage according to the invention,

Fig. 2 shows a section along the line II-II of Fig. 1,

Fig. 3 is a plan view of the subject of Fig. 1 and

Fig. 4 is an enlarged view taken substantially along the line IV-IV of FIG. 3.

The reinforced concrete room cell according to the illustrated embodiment is a so-called normal garage for a car, an example of a reinforced concrete room cell according to the invention. It is made of reinforced concrete. The reinforcement is not shown. It is present in the five disks of the structure ( 1 ) combined to form a monolith and combined to form a reinforcement cage. The monolith forms a cuboid hollow body with a bottom ( 2 ), longitudinal walls ( 3 and 4 ) and, with the exception of ventilation openings ( 5 , 6 ), a closed rear wall ( 7 ) and a ceiling ( 12 ). A Schwenktor ( 8 ) serves to close the open end face ( 9 ). The swivel arm ( 8 ) is folded up for transport, whereby the reinforced concrete prefabricated garage can be picked up, transported and set down by a truck. To increase the strength, haunches are provided between the longitudinal walls ( 3 , 4 ) and the floor at ( 10 and 11 ).

The described structure ( 1 ) is manufactured in a steel formwork, for example on its front side with the rear wall upwards as a monolith. It consists of a lightweight concrete. The mixture is based on a foamed polystyrene, which is in spherical form. The balls are in a certain grain size range with a maximum diameter of preferably about 4.5 mm and in a dry, loose bed. About 500 kg of cement, about 800 l of fly ash and about 700 g / cbm of polypropylene staple fiber and 5.5 l / m ^{3 of} plasticizer of known type are used on 500 l of this mixture. 230 l of water per cubic meter are used to switch on. With a stack length of 24 mm, the polypropylene fibers have fiber thicknesses of 20-40 µ and widths of 100-300 µ. They therefore have a low transverse contraction with high tensile strength and a large surface area.

The structure (1) of FIG. 1 is monolithic and made perpendicular as described. In contrast, it can also have a separately manufactured floor ( 2 ), the longitudinal walls ( 3 , 4 ) and the ceiling ( 12 ) comprising a construction unit and the later monolith is manufactured in a horizontal formwork. The base plate ( 2 ) can consist of the known heavy or light concrete, the reinforcement of which is connected to the reinforcement of the longitudinal walls ( 3 , 4 ) and the transverse wall ( 7 ) before the monolith is produced. A mixture as indicated above is then expedient, in which, however, the cement portion can be reduced to 450-500 kg and the fly ash portion to 700 l.

Normally, the lightweight concrete from which the building body ( 1 ) is made contains no further supplements, ie in particular no sand. However, a small amount of sand can be added to improve the cementing of the aggregates without at the same time increasing the weight of the structure ( 1 ) significantly.

The roof ( 12 ) ( Fig. 2) on the one hand has a slight inclination in the direction of the rear end wall ( 7 ). On the other hand, starting from the side edges ( 14 ) in the transverse direction of the building structure, it is concavely recessed on its upper side, resulting in a channel ( 15 ) in which rainwater can run off to the rear.

At the lowest point of the roof ( 12 ) there is an outlet ( 16 ) for internal drainage, which opens into a tank ( 17 ). The tank ( 17 ) contains an overflow pipe which is led out of the bottom of the tank and forms an outlet ( 18 ) which is derived through the rear end wall ( 7 ) to the outside.

According to the illustrated embodiment, the roof ( 12 ) serves as a planting roof, which already receives planting soil at the plant, which is shown at ( 19 ) in FIG. 4. Cup-shaped recesses ( 20 ) serve to root the potting soil. They are arranged in two longitudinal rows in an offset arrangement, as shown at ( 21 and 22 ) in FIG. 3. A capillary ( 23 ) leads to each of these recesses and is connected to the tank ( 17 ) shown in FIG. 2. This results in automatic irrigation of the recesses ( 20 ).

The shape of the cup-shaped recesses (20) in accordance with the illustration of FIG. 4 characterized in that the base (24) has a smaller surface area than the top opening (25) and the walls (26) extending frustoconical shaped. The opening ( 27 ) of the capillary ( 23 ) lies in the interior of the bowl ( 20 ).

If the roof ( 12 ) of the prefabricated garage has already been planted, the rainwater, which is not absorbed by the soil of the planting soil ( 19 ), collects in the tank ( 17 ). If necessary, this can be filled with process water. Through the capillaries ( 23 ) and their openings ( 27 ), the water required for keeping the potting soil ( 19 ) moist comes directly into the bowls ( 20 ) which absorb the roots of the plants. Stopcocks, not shown, allow regulation of the water supplied in each case.

Claims (11)

1. Reinforced concrete room cell, characterized in that at least the consisting of side walls ( 3 , 4 ), rear wall ( 7 ) and ceiling ( 12 ) existing building ( 1 ) consists of a con structive lightweight concrete, the basic component of which is granulated plastic made of foamed polystyrene, the Cement, a smaller proportion of a light aggregate compared to the cement and the plastic, an alkaline textile fiber reinforcement, and an eluent are added. 2. reinforced concrete room cell according to claim 1, characterized in that the surcharge Fly ash consists of approx. 800 kg each 500 cdm foamed polystyrene are added. 3. Reinforced concrete room cell according to the claims 1 or 2, characterized in that the Cement content between 400 kg to 500 kg, preferably 450 kg per 500 cdm foamed Makes up polystyrene. 4. Reinforced concrete room cell after one or several of claims 1 to 3, characterized  characterized in that as textile fiber poly propylene fiber serves. 5. Reinforced concrete room cell according to one or more of claims 1 to 4, characterized in that the structure ( 1 ) is monolithic and its bottom ( 2 ) consists of normal or heavy concrete, the reinforcement of which is connected to the reinforcement of the monolith, the Cement and light aggregate are reduced proportionately. 6. Reinforced concrete room cell after one or several of claims 1 to 5, characterized characterized that the constructive light contains concrete sand. 7. reinforced concrete room cell according to one or more of claims 1 to 6, characterized in that the roof ( 12 ) has a molded-in recess ( 15 ) which serves as roof drainage. 8. reinforced concrete room cell according to one or more of claims 1 to 7, characterized in that the roof ( 12 ) serves as a planting deck and with a prefabricated th from soil ( 19 ) existing root soil. 9. Reinforced concrete room cell according to one or more of claims 1 to 8, characterized in that the potting soil is housed in cup-shaped recesses ( 20 ) which have an irrigation system, with bowls closed at the bottom and open at the top. 10. Reinforced concrete room cell according to one or more of claims 1 to 9, characterized in that a built-in tank ( 17 ) is used for irrigation, which contains process water and / or rainwater from the roof drainage ( 15 ). 11. Reinforced concrete room cell according to one or more of claims 1 to 10, characterized in that capillaries ( 23 ) are used to irrigate the wells ( 20 ), which connect the wells ( 20 ) to the tank ( 17 ).