RU120979U1 - Prefabricated building frame - Google Patents

Abstract

1. A prefabricated building frame containing interconnected frame elements, characterized in that the frame elements are made in the form of pipes based on polymer, and the frame elements are connected to each other by fittings and / or clamps. ! 2. Prefabricated building frame according to claim 1, characterized in that the frame elements are made in the form of polypropylene pipes. ! 3. The prefabricated frame of the building according to claim 1, characterized in that the frame elements are made in the form of polyvinyl chloride pipes. ! 4. Prefabricated building frame according to claim 1, characterized in that the frame elements are made in the form of polyethylene pipes. ! 5. The prefabricated frame of the building according to claim 1, characterized in that the frame elements are made in the form of carbon fiber pipes. ! 6. Prefabricated building frame according to claim 1, characterized in that the fittings and clamps are made of polymer material. ! 7. Prefabricated building frame according to claim 1, characterized in that the connection of the frame elements to each other is made detachable. ! 8. Prefabricated building frame according to claim 1, characterized in that the in-pipe space of the frame elements connected by fittings is filled with concrete. ! 9. The prefabricated building frame according to claim 1, characterized in that it comprises a base frame, supporting frame struts, horizontal upper and lower straps and a roof frame, wherein the frame supporting struts connect the base frame and the roof frame. ! 10. A prefabricated building frame according to claim 1, characterized in that the space between the frame elements is filled with organic or inorganic heat-insulating material. !eleven. Prefabricated building frame according to claim 1, characterized in that panels are fixed to the frame elements using clamps.

Description

The field of technology.

The claimed invention relates to the field of ground construction, namely to building frame structures. The inventive prefabricated frame of the building is intended for use in buildings and structures for consumer use and auxiliary use, such as cottages, small warehouses, garden houses and summer pavilions, outbuildings such as garages, greenhouses and greenhouses, as well as buildings of small and medium spans.

The prior art.

Among building frames, for example, a modular steel frame structure is known (RF application No.2000110742 for invention, IPC E04 B 1/348, 2006 [1]), including a ceiling frame, a floor frame with zeta profiles welded into it, the panel of the frame, a composite rack with welded steel jumpers, while the panel of the frame is connected to the floor frame and the ceiling frame using a transverse beam and pins.

The disadvantages of this design is a large set of diverse frame elements, which complicates the design, and the open section of the zeta profile, which has a lower bearing capacity, when working cross-members for bending, compression and torsion than profiles with a closed section, as well as the tendency to crack in welded joints of the floor frame and zeta profiles.

The frame of a prefabricated house is known (RF application No. 2008118476/03 for an invention, IPC Е04В 1/32, 2009 [2]) including steel frame elements that are made of steel grade C and have a mainly U-shaped cross section.

The disadvantages of this analogue are the high mass of steel elements of the frame, which complicates the assembly technology, and a relatively low bearing capacity.

Also known is the frame frame of low-rise modular buildings of the Italian company Edilsider (L.V. Endzhievsky, V.D. Nadelyaev, I.Ya. Petukhova, "Frameworks of buildings from light metal structures and their elements", Publishing House ASV, -M .; 1998, p.16 [3]), including racks and a crossbar having a composite box section of two bent steel profiled strip channels with bent shelves, while the profiles are connected using steel studs inserted into loops welded to the shelves of one from profiles and threaded through the slot Provided on the other profile.

The disadvantages of this frame frame are the implementation of the racks and the crossbar composite, which leads to a complication of the design and assembly technology. The connection of channels for the formation of a box-shaped section along the entire length does not lead to a decrease in the bearing capacity, and a decrease in the corrosion resistance of the structure. The implementation of the racks and the bolt steel leads to low corrosion resistance of the structure.

The specified frame frame [3] is the set of essential features the closest design of the same purpose to the claimed invention. Therefore, it is adopted as a prototype of the claimed invention.

Disclosure of the invention.

The technical result provided by the claimed invention is the unification, weight reduction, increased corrosion resistance of the precast frame of the building. Another technical result is to reduce the installation time of the building frame.

The essence of the invention lies in the fact that the prefabricated frame of the building contains interconnected frame elements, while the frame elements are made in the form of pipes based on polymer, and the connection of the frame elements with each other is made by fittings and / or clamps.

Preferably, the frame elements are in the form of polypropylene pipes.

Frame elements can be made in the form of pipes made of polyvinyl chloride. It is permissible to carry out frame elements in the form of pipes made of polyethylene or carbon fiber.

It is preferable to make fittings and clamps of a polymeric material. The connection of the frame elements with each other can be made detachable.

The in-tube space of the frame elements connected by fittings can be filled with concrete.

It is advisable to carry out a prefabricated building frame comprising a base frame, supporting frame posts, horizontal upper and lower harnesses and a roof frame. In this case, the supporting struts of the frame connect the base frame and the roof frame.

The space between the frame elements can be filled with organic or inorganic thermal insulation material.

It is permissible to fix panels on the frame elements using clamps. A brief description of the drawings.

The figure 1 shows a structural diagram of the precast frame of the building according to example 8, figure 2 is a cross section of a frame element (section aa of figure 1) The implementation of the invention.

Prefabricated frame of the building contains frame elements made on the basis of polymer. The connection of the frame elements to each other is made by fittings 6 and / or clamps 7 (figure 1).

It is known that polypropylene pipes are stronger and lighter than steel pipes, are not subject to chemical and electrocorrosion, do not rust during operation, do not transmit vibration and sounds, are easily installed, and also have environmental cleanliness (A.V. Zdovbitsky, V.G. Golinsky, OT Kurandin, "Water and gas pipes and fittings made of polypropylene. A guide to the installation of pipelines", Moscow, 1996, p.1, 2 [4]). In this case, the pipes have a closed section. Closed sections have known advantages over open sections, they have a higher load-bearing capacity, are less susceptible to mechanical damage during installation and transportation, and also have good wind flow around them.

Examples of specific performance.

Example 1. In order to ensure environmental cleanliness of the prefabricated frame of the building, the frame elements are mainly made in the form of polypropylene pipes.

Example 2. In order to increase rigidity and reduce thermal expansion of the building frame material, frame elements are made in the form of pipes made of polyvinyl chloride.

Example 3. Frame elements are made in the form of pipes made of polyethylene.

Example 4. In order to strengthen the precast frame of the building, the frame elements are made of carbon fiber.

Example 5. Fittings and clamps are preferably made of a polymeric material.

Example 6. In order to erect temporary buildings, the connection of the frame elements to each other is made detachable.

Example 7. The inner tube space of the frame elements connected by fittings is filled with concrete. This design is used for stationary buildings and stationary structures for consumer use, as well as in cases where reinforcement of the frame is required.

Example 8. The prefabricated frame of the building contains the base frame 1 (Fig. 1), the roof frame 2, the vertical supporting struts of the frame 3, the upper strapping 4 and the lower strapping 5. In this case, the vertical supporting struts of the frame 3 connect the base frame 1 and the roof frame 2 .

Example 9. In order to increase the bearing capacity of the precast frame of the building, panels are fixed to the frame elements using clamps.

Example 10. To give the frame of the building heat-insulating properties, the space between the frame elements is filled with organic or inorganic heat-insulating material.

The implementation of the structural elements of the claimed invention is not limited to the above examples.

The building frame is assembled by connecting the frame elements with each other by fittings 6 and / or clamps 7. Angle, triple or cross pieces are used.

If necessary, the frame is placed at reference points, which, depending on the loads and soil characteristics, can be made in the form of building blocks with recesses for structural elements, or support pipes. In this case, the support pipes are installed in pre-drilled wells in the soil, and then they are poured with concrete. In this case, the support pipes have, as a rule, a larger diameter in comparison with the pipes of structural elements. Then, panels, external and internal cladding, roof panels are hung on the frame, doors and windows are installed. For this, clamps with mounting brackets are pre-mounted to the frame.

Thus, from the foregoing, it follows that in the inventive precast frame of the building, the claimed technical result: “unification, weight reduction, increased corrosion resistance of the building frame elements” is achieved due to the fact that the prefabricated building frame contains interconnected frame elements, while the frame elements made in the form of pipes based on a polymer, and the connection of the frame elements to each other is made by fittings and / or clamps. Another technical result: "reducing the installation time of the building frame" is achieved due to the fact that the prefabricated building frame contains interconnected frame elements, while the frame elements are made in the form of pipes based on polymer, and the frame elements are connected to each other by fittings and / or clamps. Industrial applicability.

The inventor made a prototype of the claimed prefabricated building frame, tests of which confirmed the achievement of the technical result.

The inventive prefabricated frame of the building is implemented using industrially produced materials, can be manufactured at an industrial enterprise and will be widely used in the field of construction.

Information sources.

1. RF application No.2000110742 for an invention, IPC Е04В 1/348, 2006;

2. RF application No. 2008118476/03 for the invention, IPC EV04/132, 2009;

3. L.V. Endzhievsky, V. D. Nadelyaev, I. Ya. Petukhova, "Frameworks of buildings from light metal structures and their elements", Publishing house ASV, -M .; 1998;

4. A.V. Zdovbitsky, V.G. Golinsky, O.T. Kurandin, “Water-gas pipes and fittings made of polypropylene. Pipeline Installation Guide, Moscow, 1996

Claims (11)

1. A prefabricated building frame containing interconnected frame elements, characterized in that the frame elements are made in the form of pipes based on polymer, and the frame elements are connected to each other by fittings and / or clamps. 2. Prefabricated building frame according to claim 1, characterized in that the frame elements are made in the form of polypropylene pipes. 3. The prefabricated frame of the building according to claim 1, characterized in that the frame elements are made in the form of pipes made of polyvinyl chloride. 4. The prefabricated frame of the building according to claim 1, characterized in that the frame elements are made in the form of pipes made of polyethylene. 5. The prefabricated building frame according to claim 1, characterized in that the frame elements are made in the form of carbon fiber pipes. 6. The prefabricated building frame according to claim 1, characterized in that the fittings and clamps are made of polymer material. 7. The prefabricated frame of the building according to claim 1, characterized in that the connection of the frame elements to each other is made detachable. 8. The prefabricated frame of the building according to claim 1, characterized in that the inner tube space of the frame elements connected by fittings is filled with concrete. 9. The prefabricated frame of the building according to claim 1, characterized in that it comprises a base frame, load-bearing pillars of the frame, horizontal upper and lower bindings and a roof frame, while the load-bearing pillars of the frame connect the base frame and the roof frame. 10. The prefabricated frame of the building according to claim 1, characterized in that the space between the frame elements is filled with organic or inorganic thermal insulation material. 11. The prefabricated frame of the building according to claim 1, characterized in that the panels are fixed to the frame elements using clamps.