CZ32932U1 - Prefabricated wall - Google Patents

Description

Field of technology

The technical solution relates to a prefabricated wall comprising a frame which delimits at least one opening filled with filling material.

Prior art

There are a number of building systems that make it possible to produce prefabricated building parts in production halls, and the resulting building is then assembled from these building elements on site. Such prefabricated building components are made of various materials and are transported to the construction site at various stages of development.

A typical example is panel construction, using reinforced concrete panels, which are produced in the hall and transported to the building where they are connected. Such panels used to be used for the construction of prefabricated housing estates, but now they are still used for the construction of prefabricated houses.

Another example is prefabricated wooden buildings, in which the basis of the prefabricated wall is a supporting frame made of wooden prisms (dried wood), which is filled with thermal insulation. The frame is closed on both sides with OSB boards or gypsum fiber boards (Knauf, Rigips and the like). Such prefabricated walls are made in the hall, transported to the construction site and connected to each other by means of screws and bolts.

The so-called skeletal building system is also known, in which reinforced concrete columns, girders and foundation thresholds are produced separately in the production plant. These manufactured elements are transported to the state where they are assembled on the footings. The builder then finishes the walls himself, in the form of masonry or as a wooden building. This system is manufactured under the name "skeletsystém" by Goldbeck.

The common advantage of prefabricated building elements is the standard quality, guaranteed by production in the production plant and especially the speed of assembly on the building site. Regardless of these advantages, however, surveys clearly show that domestic builders still prefer conventional masonry buildings to prefabricated buildings and prefabricated wooden buildings.

The aim of the technical solution is to design a prefabricated wall that would have the character of a brick building and at the same time not lose the advantages of prefabricated building systems.

The essence of the technical solution

This object is achieved by a prefabricated wall comprising a frame delimiting at least one opening filled with filling material, according to a technical solution, the essence of which is that the frame is formed by a monolithic cast of reinforced concrete, the opening being at least partially filled with masonry.

According to a preferred embodiment, the opening comprises doors and / or windows.

According to a further preferred embodiment, the frame has sheet metal plates arranged at the ends of the upper surface or at the sides for connecting the adjacent walls by a welded joint.

The advantage of a prefabricated wall according to the technical solution is that it allows the construction of masonry buildings using the method used so far only in prefabricated buildings. So some construction is eliminated

- 1 CZ 32932 Ul activities such as bringing masonry to the construction site, handling the masonry on the construction site, checking the masons and the quality of their work.

Furthermore, some construction and technical solutions are eliminated, such as window and door lintels and a reinforcing wreath, because their function is taken over by the reinforced concrete frame of the prefabricated wall.

The production in the production hall ensures the quality of the verticality of the walls, because the walls are walled into the formwork in the production hall. This eliminates any additional work and additional costs on the internal plaster and exterior facades with crooked walls during masonry on the construction site.

After completing the installation of walls on the construction site, the installation of the roof and other construction activities such as indoor installation, etc. can be started immediately.

Other advantages are the high compressive strength of the walls, no thermal bridges in the joints, hygienic safety, long service life and, last but not least, financial savings of about 20% compared to conventional masonry while maintaining the same properties of the final wall.

Explanation of drawings

Fig. 1 schematically shows an example of an embodiment of a prefabricated wall according to a technical solution with a frame comprising three openings. Fig. 2 is an example of an embodiment with a four-hole frame fitted with a door and a window, and Fig. 3 is a single-hole frame. Fig. 4 shows an example of an embodiment of a corner joint of prefabricated walls according to the technical solution. Fig. 5 shows an example of an embodiment of a joint of adjoining prefabricated walls according to the technical solution.

Examples of technical solution

The exemplary embodiment of the prefabricated wall according to Fig. 1 comprises a frame 1 formed by a reinforced concrete monolithic cast of reinforced concrete, which delimits three openings 2 filled with masonry 7. Any known masonry material can be used as masonry 7, e.g.

The frame 1 has at its opposite ends of the upper surface built-in sheets 3 for connecting the adjoining walls by a welded joint 4. Fig. 4 shows an example of a corner joint of two prefabricated walls, where the sheets 3 are joined by a weld 4. by a welded joint 4 they can also be built into the vertical arms of the frame 1. An example of such a joint is shown in Fig. 5.

The frame 1 has two handling eyes 8 arranged on the upper surface for catching the crane hooks when handling the prefabricated wall.

The exemplary embodiment of the prefabricated wall according to FIG. 2 has a frame 1 with four openings 2, and in addition has a door 5 and a window 6 already fitted in the masonry 7.

The exemplary embodiment of the prefabricated wall according to FIG. 3 is a simple embodiment with a frame 1 which delimits a single opening 2.

Prefabricated walls according to the technical solution can be used as load-bearing and non-load-bearing walls for family houses, commercial buildings, garages, cottages, etc. According to the customer's wishes, they can be made in various stages of development, such as prepared window and door openings 6 and door 5, or even including prepared installations of water, waste and electricity in the walls, possibly also including internal plaster and installation of an outdoor thermal insulation system.

-2CZ 32932 UI

The resulting assembly on site is then fast and efficient. For example, in a family house with a built-up area of 120 m ² , the assembly of load-bearing walls takes one working day and the installation of partitions, depending on the segmentation, takes one to two working days.

According to the technical solution, the prefabricated wall with a thickness of 175 mm can function as a load-bearing wall and can replace the classic load-bearing masonry up to a thickness of 450 mm with its properties.

According to the technical solution, the prefabricated wall with a thickness of 100 mm can replace classic masonry partitions with its properties.

The prefabricated wall is manufactured in a production hall, in which formwork for the future reinforced concrete frame 1 is prepared on a horizontal rigid slab. The formwork is made either of system formwork such as PERI, DOKA, etc. or of formwork plywood and lumber. Frame 1 is cast flat in a horizontal position.

Reinforcing reinforcement is installed in the formwork and then the concrete mixture is transported to the formwork directly from the truck mixer or by the concrete pump. The concrete mixture vibrates properly after laying. The handling of the concreted frame 1, ie its stripping and lifting to a vertical position, is performed when the concrete reaches 60% of the value of the final strength of the concrete.

Lifting of the frame 1 to the vertical position is performed by means of a rigid horizontal pad on which the frame 1 was made. After anchoring the frame 1 in a vertical position, the masonry frame 1 is bricked up. The individual masonry bricks 7 are laid according to the technical sheet of the brick manufacturer. During masonry, a rigid base still remains on one side of the frame 1, so that the bricks are laid and "fitted" with this base. This ensures high accuracy of the resulting masonry 7 The last row of masonry 7 is "tightened" with foam to the frame 1 When 90% of the final strength of the concrete is reached, the remaining formwork can be removed and any manipulation of the prefabricated wall can be performed.

The finished prefabricated walls are loaded onto a truck by means of crane hooks, caught in the handling eyes 8 on the frame 1, and transported to the construction site. The frames 1 are always loaded, transported and unloaded in their vertical position.

Prefabricated walls are laid on site at the construction site on a prepared reinforced concrete foundation slab in a mortar leveling bed made of cement mortar.

The actual assembly of the building then takes place in ways known from the prior art. The individual prefabricated walls are connected by welded joints 4 of the sheet metal plates 3, as shown in Figs. 4 and 5.

Claims (3)

CLAIMS FOR PROTECTION A prefabricated wall, comprising a frame (1) delimiting at least one opening ( 2), filled with filling material, characterized in that the frame (1) is formed by a monolithic cast of reinforced concrete, the opening (2) being at least partially filled with masonry (7). Prefabricated wall according to claim 1, characterized in that the opening (2) comprises doors (5) and / or windows (6). Prefabricated wall according to Claim 1 or 2, characterized in that the frame (1) has sheet metal plates (3) arranged at the ends of the upper surface or at the sides for connecting adjoining walls