RU58581U1 - SUSTAINABLE BUILDING FORMWORK - Google Patents

Abstract

The utility model relates to the field of construction, in particular, to fixed frame fixed soft construction formwork and can be used for the manufacture of all building elements: walls, floors, partitions, foundation slabs, as well as entirely small buildings and large buildings using modular technology. Fixed construction formwork contains a soft shell, with jumpers located inside it, fixed on its inner walls. Jumpers are made in the form of intersecting guides, forming at the intersection of communicating cells. As a filler of the inner space of the shell used hardening composition. Stiffeners can be fixed on the rails. The guides can be made in the form of tapes on which through holes are made for passing through them a hardening composition. The soft shell may be made of dense, inextensible materials. The proposed fixed construction formwork is easy to manufacture and provides a quick construction of capital structures for both residential and industrial purposes.

Description

The utility model relates to the field of construction, in particular, to fixed frame soft construction formwork and can be used for the manufacture of all building elements: walls, floors, partitions, foundation slabs, as well as entirely small buildings and large buildings using modular technology.

A fixed construction formwork is known, containing two opposed slabs made of porous heat-insulating material, fastened with bridges and forming a space for mounting reinforcement and filling with a fluid material capable of hardening, while a facing layer is applied on the outside of the slab, made in the form of liquid-flowing material capable of hardening (see RF patent No. 2253719, class IPC 7 E 04 B 1/16, E 04 B 2/86).

A disadvantage of the known formwork is the high complexity and cost of its manufacture due to the need to assemble all the formwork elements directly at the construction site.

A disadvantage of the known formwork is also a limited list of fluid materials used to fill the formwork.

A well-known universal podmoframe module made in the form of separate segmented bases attached to the inflatable element in which connecting rods are pivotally mounted (see RF patent application No. 94003594, Cl. IPC 6 E 04 H 15/20).

A disadvantage of the known module is its short service life, which is determined by the condition of the inflatable shell of segmented bases.

The instability of the inflatable shell to external mechanical influences - solar radiation, precipitation, temperature extremes, as well as punctures, cuts and other damage during the operation of the building can lead to loss of stability and destruction of the building.

In addition, this module has low maintainability due to the need to dismantle the entire structure during the repair work.

The disadvantage of this pneumatic frame module is also a low degree of fire resistance due to the implementation of the shell of flammable materials.

And finally, the specified module cannot be used as a capital structure suitable for long-term use, since it is made of inflatable elements that do not have sufficient rigidity and poor air permeability.

A pneumatic frame structure is known, comprising a pneumatic frame formed by the contour of inflatable balloons around the perimeter, inflatable balloons located in other horizontal planes of the building, connected to inflatable elements located in vertical planes, while the entire pneumatic frame is covered with elastic material forming an awning (see application RF patent No. 2003120742, class IPC ₇ E 04 H 15/20).

In the given design of the pneumoframe structure, the pneumatic frame of inflatable balloons is covered with elastic material.

Such a constructive solution partially extends the service life of the building during operation due to the protection of inflatable balloons with elastic material.

However, the elastic material does not provide sufficient protection for inflatable balloons, since it itself can be easily damaged.

All other shortcomings of the previous one are inherent in him.

A large-span building is known that contains a non-removable two-layer pneumatic shell with internal jumpers, which is a wave-shaped lattice made in the form of a pipe, filled with a hardening composition, the wave crests of which are attached alternately to the outer and inner layers of the shell (see RF patent No. 2045646, class IPC ₆ E 04 H 15/20).

In the large-span building cited by the latter, one of the drawbacks of the two previous ones has been partially improved, namely, the internal, structural bonds of the two-layer shell are filled with a hardening compound, which provides the building with sufficient rigidity.

The specified building can in some cases be used as a durable building, but not for residential premises, since it requires forced ventilation.

In addition, the presence of a space filled with air inside the two-layer shell makes it unsuitable for housing construction, since this building does not have sufficient reliability and safety.

The remaining shortcomings of the previous ones are inherent in him.

The large-span building cited by the latter is the closest technical solution to the technical nature.

The task to which the utility model is directed is to increase the rigidity of the structure and increase its service life.

To obtain such a technical result, in the known fixed construction formwork containing a soft shell, with jumpers located inside it, fixed on its inner walls and a filler for the inner shell space, the jumpers are made in the form of intersecting rails that form cells communicating with each other, and a hardening composition was used as filler.

Stiffeners can be fixed on the rails.

The guides can be made in the form of tapes on which through holes are made for passing through them hardening filler.

The soft shell may be made of dense, inextensible materials.

In the proposed design, the lintel formwork is made in the form of a stiffening frame formed by intersecting guides that form interconnected cells at the intersection

Such a constructive solution provides the formwork with structural rigidity when filling the inner cavity of the shell with a hardening composition, eliminates the formation of blisters and allows its use in the construction of residential and industrial buildings and durable structures.

The guides intersecting each other can form cells of various geometric shapes, which help to keep the filler in them and thereby increase the strength of the structure.

Durable metal mesh can be used as guides.

The overall dimensions of the formwork are not limited.

In the construction of small structures, it may include walls, floors, foundation slabs, roof slopes and other elements necessary for construction.

As a hardening composition, various materials can be used, including concrete of various grades, foam concrete, polystyrene, polystyrene, ripory,

straw, sand and gravel, sawdust mixed with peat, etc., depending on the purpose of the structure being built and its geographical location.

The advantage of the proposed construction formwork is simplicity, speed and low cost of its manufacture.

Stiffeners mounted on rails strengthen the structure, increase its rigidity and load-bearing capacity, which allows the use of formwork as foundation plates.

As stiffeners, plates with holes for passing a hardening composition and tubes made of hard and durable materials can be used.

The implementation of the guides in the form of tapes on which through holes are made for passing through them hardening filler, facilitates the design and reduces the cost of its manufacture.

Rollable materials, for example, fiberglass, heavy tarpaulin fabrics made from flax with fire-resistant and water-repellent impregnation, possessing sufficient strength, wear resistance and environmental friendliness, can be used to make a soft shell.

The manufacture of the shell from linen materials allows you to use the shell as an internal finishing material, eliminating the cost of finishing work.

In addition, the proposed formwork provides the possibility of applying various architectural solutions, depending on the cutting of the shell.

And finally, the proposed formwork has high thermal insulation properties.

In FIG. shows a general view of fixed construction formwork.

Fixed construction formwork contains a soft shell 1, with guides 2 located inside it, fixed on its inner walls.

The guides 2 at the intersection form interconnected cells.

The inner space of the shell 1 is filled with a hardening composition 3.

On the guides 2 can be fixed plate 4 to increase the bearing capacity of the structure.

Construction formwork is made as follows.

The fabricated soft shell 1 is expanded. A stiffening frame is placed inside the shell, made in the form of intersecting guides 2, which are fixed on the inner walls of the shell.

If necessary, plates 4 can be fixed on the guides 2.

At the final stage, the inner space of the shell is filled with a hardening composition 3.

For the manufacture of large-sized buildings, a shell is thrown onto the finished stiffener frame and secured with belts, cables, etc. After that, the inner space of the shell is filled with a hardening composition.

The proposed utility model allows you to create a simple to manufacture, with low material consumption, low cost, environmentally friendly, multi-functional soft construction formwork, which can be used for the rapid construction of capital structures, both for residential and industrial construction.

Claims (4)

1. Fixed construction formwork containing a soft shell, with jumpers located inside it, fixed on its inner walls and a filler for the inner shell space, characterized in that the jumpers are made in the form of intersecting rails that form cells communicating with each other, and hardening composition was used as filler. 2. Fixed construction formwork according to claim 1, characterized in that the stiffeners are fixed on the rails. 3. The fixed construction formwork according to claim 1, characterized in that the guides are made in the form of tapes on which through holes are made for passing through them a hardening composition. 4. Fixed construction formwork according to claim 1, characterized in that the soft shell is made of dense, inextensible materials.