RU2811099C1 - Method of connecting structural parts - Google Patents

Abstract

FIELD: connecting structural parts.

SUBSTANCE: invention relates to methods for connecting structural parts, in which fastening holes are made in the parts, sections of parts are formed sequentially: two or more parts are connected to each other by connecting elements, for example, a connecting angle or angles, a connecting plate or plates and fastening ties. Next, the sections are sequentially connected to each other using fasteners installed in the mounting holes. According to the invention, the fastening elements are starting nuts and fastening ties, each of which has a corresponding external screw thread on one side and an extension with an internal thread for connection with the next fastening tie. The second section of the structure is installed on the first section of the structure, arranging the parts so that the installed fastening ties of the first section fall into the fastening holes of the parts of the second section. They continue to connect the sections, each time tightening the newly installed section with the previous one, to form a single structure in which the fastening ties are a rigid support for installing parts on them, the distance between which can be adjusted by the size of the fastening ties.

EFFECT: ensured stability of the geometric size of the structure obtained by connecting the parts.

9 cl, 34 dwg

Description

Field of technology to which the invention relates

This invention relates to methods for connecting structural parts (hereinafter referred to as parts): beams, blocks and other structural elements, in which fastening holes are made in each part; sections are formed from parts, connecting and fastening elements: two or more parts are connected to each other by connecting elements (for example, a connecting angle or angles, a connecting plate or plates) and fastening elements; The sections are sequentially connected to each other using fastening ties. This invention can be used to form various structures.

In this description the following concepts are used:

Structural parts - beams, blocks and other structural elements that can be made of various materials: wood, metal, plastic, fiber cement, reinforced concrete, etc. Depending on the structure being formed, the parts can have linear, radial and other shapes, and the ends of the parts in relation to the side of the part can have a different angle α, where 0°<α<180°.

The description of this technology is made using the example of a wooden profiled beam. There are several types of wooden beams: regular sawn, dry planed, glued and profiled timber.

Fastening holes - cylindrical, conical and other configurable holes formed in parts to connect parts together with connecting and fastening elements; the number of fastening holes depends on the shape of the section of the assembled structure and the size of the parts being connected.

Fasteners - structural elements for connecting parts: starting nuts and fastening ties. Starter nuts have a female threaded hole for connection to mounting ties. Fastening ties can be connected to the starting nuts and to each other due to the fact that on one side the tie has a rod with an external thread, and on the other side a hole with a corresponding internal thread. The dimensions of elements with external and internal threads correspond to the size of the fastening holes in the parts and connecting elements.

Connecting elements - connecting corners and plates that have holes corresponding in size and location to the fastening holes on the parts, may have their own spikes and additional holes for fixing with self-tapping screws and (or) nails.

Depending on the structure being formed, in accordance with the configuration of the parts to be connected, the connecting plates can have linear, radial and other shapes, and the connecting angles, accordingly, can have a different angle α, where 0°<α<180°.

Section of a structure - two or more parts connected to each other by connecting elements (for example, a connecting corner or corners, a connecting plate or plates) and fasteners.

State of the art

The method of connecting structural parts (beams) is known from the prior art, see the description of the RF patent for invention No. 2792433, published on 03/22/2023. It also

• mounting holes are made in structural parts,

• sections are formed sequentially from structural parts, for which two or more structural parts are connected to each other by connecting elements,

• connect the sections to each other using fasteners installed in the mounting holes.

This method is the closest in technical essence and the achieved technical result and was chosen as the prototype of the proposed invention.

The disadvantage of this prototype is that in order to connect structural parts (beams) using this method, it is necessary to make a pair of holes at each attachment point of the beams. In addition, to avoid shrinkage of structural parts (beams) and stabilize dimensions during horizontal assembly and further operation, this method allows the implementation of only relatively small structures, not exceeding one or two floors. This is due to the fact that with a large height of the structure (three or more floors) there will be a significant increase in the mass of this structure, which will lead to shrinkage of the beams of the lower sections under the weight of the beams of the upper sections. This factor on high-height structures will make the specified method of connecting beams into an unstable one.

In addition, this method describes only the connection of linear profiled beams and does not affect the possibility of connecting other structural parts of various configurations and different compositions.

Disclosure of the Invention

Based on this original observation, the present invention mainly aims to provide a method for connecting structural parts to form various structures, which eliminates at least some of the above disadvantages, namely, at least allows for the stability of the geometric size of the structure, and in addition significantly expand the list of connected parts, which is the goal.

To achieve this goal, the method for connecting structural parts is essentially characterized by the fact that the method additionally includes the following steps:

• starting nuts and fastening ties are used as fastening elements, each of which has a corresponding external screw thread on one side and an extension with an internal thread for connection with the next fastening tie,

• starting nuts are installed in the fastening holes of the structural parts of the first section;

• form the first section, for which purpose the structural parts of the first section are installed with starting nuts in the shape of the specified section and connecting corners and (or) plates are installed on the structural parts so that the fastening holes of the structural parts and connecting elements are located coaxially,

• through the holes on the connecting elements, install fastening ties into the fastening holes of the structural parts of the first section and screw them into the starting nuts until they stop;

• form the second section, for which the structural parts of the second section are installed on the structural parts of the first section so that the connecting elements are located between the structural parts of the first and second sections, and the fastening holes of the structural parts of the first and second sections and the connecting elements are coaxial;

• install connecting angles and (or) plates on the structural parts of the second section so that the fastening holes of the structural parts and connecting elements are located coaxially,

• through the holes on the connecting elements, fastening ties are installed into the fastening holes of the structural parts of the second section and screwed into the fastening ties of the first section until they stop;

• continue this until the required length or height of the assembled structure is reached, depending on the horizontal or vertical assembly method.

Thanks to these advantageous characteristics, it becomes possible to speed up and simplify the assembly and possible subsequent disassembly of the structure. In addition, this makes it possible to achieve uniform distribution of the compression load of all sections.

That is, to eliminate the shortcomings of the prototype, fastening ties are used, forming single reinforcing rods in the assembly, passing through the entire height (for the horizontal assembly method) or the length of the structure (for the vertical assembly method). In this case, during the assembly process, the next fastening tie is screwed into the previous one until it stops, thus positioning the fastening ties and ensuring dimensional stability is achieved only due to the geometric dimensions of the fastening tie itself and does not depend on the pulling force and other subjective factors.

In turn, each individual part is supported directly on the fastening tie, and not on the adjacent part. To create a tightness in the presence of a guaranteed compensation gap between the connected parts, it is proposed to use a sealing profile, sealing tape, and sealants.

This solution allows, without being limited by the height and width of the assembled structure, to increase the operational load of the structure, avoid shrinkage of parts, and ensure dimensional stability. In addition, this method of connecting parts can be used to assemble quickly prefabricated/dismountable formwork and further pour concrete, which may be in demand in the construction of structures for various purposes made of monolithic concrete.

There is a possible variant of the present invention in which connecting plates or corners are used as connecting elements. Thanks to these advantageous characteristics, it becomes possible to use connecting plates or corners.

There is also a possible variant of this invention, in which profiled beams are used as a structural part, and the connecting corners and connecting plates are inserted into grooves on the profiled beams.

Thanks to these advantageous characteristics, it becomes possible to additionally fix the structural elements to each other. Connecting plates and corners can be located in the recess of the profile, which ensures their positioning.

In addition, there is a possible variant of this invention, in which a seal is installed at the joints of profiled beams.

Thanks to these advantageous characteristics, it becomes possible to provide additional sealing of the joints, as well as create a tightness with a guaranteed compensation gap between the parts being connected. As a sealant, it is proposed to use a sealing profile, sealing tape, and sealants.

There is such a possible variant of this invention, in which the parts in the sections are laid in an overlap.

Thanks to these advantageous characteristics, it becomes possible to connect parts without using plates.

Finally, there is a possible variant of this invention in which profiled parts are used and additional transverse grooves are made in them, while when assembling the sections, the parts are duplicated, and duplicate connecting plates are used for connection.

Thanks to these advantageous characteristics, it becomes possible to increase the rigidity of the assembled structure.

The set of essential features of the proposed invention as a method is unknown from the prior art for methods of similar purposes, which allows us to conclude that the invention meets the “novelty” criterion in relation to the method. In addition, this solution is not obvious to a person skilled in the field.

Brief description of the drawings.

Other features and advantages of the present invention will clearly appear from the description given below by way of illustration and non-limitation, with reference to the accompanying drawings, in which:

- figures 1A, 1B, 1B show examples of possible designs of structural parts of various configurations, made of various materials with mounting holes,

- figures 2A, 2B, 2B show examples of possible designs of the angle α between the end and side face of profiled beams with mounting holes,

- figures 3A, 3B, 3B show an example of possible designs of fastening holes on various structural parts (sectioned along the axes of the fastening holes),

- figures 4 and 5 show examples of possible designs of fastening ties,

- figures 6 and 7 show examples of possible designs of starting nuts,

- figures 8A, 8B, 8B show examples of possible designs of connecting elements,

- figure 9 shows an example of a possible design of a connecting plate,

- figure 10 shows an example of a possible design of a connecting corner,

- figure 11 shows an example of a possible design of a duplicated connecting plate,

- figure 12 shows an example of a possible design of a beam with mounting holes,

- figure 13 shows an example of a possible design of a profiled beam with mounting holes,

- figure 14 shows an example of a possible design of a section of a structure made of profiled beams,

- figure 15 depicts the installation of starting nuts into the fastening holes of a profiled beam, according to the invention,

- figure 16 depicts the installation of starting nuts into the mounting holes of the profiled beams of the first section of the structure, according to the invention,

- figure 17 shows the installation of connecting elements (connecting corners and plates) on the profiled beams of the first section of the structure, according to the invention,

- figure 18 shows the installation of fastening ties on the profiled beams of the first section of the structure, according to the invention,

- figure 19 depicts the installation of profiled beams of the second section on profiled beams of the first section of the structure, according to the invention,

- figure 20 depicts the installation of connecting elements (connecting corners and plates) on the profiled beams of the second section of the structure, according to the invention,

- figure 21 depicts the installation of fastening ties on the profiled beams of the second section of the structure, according to the invention,

- figure 22 shows an example of an assembled structure consisting of ten sections with a horizontal method of assembling profiled beams, according to the invention,

- figure 23 shows an example of an assembled structure consisting of ten sections with a vertical method of assembling profiled beams, according to the invention,

- figure 24 shows the connection of profiled beams in section: positioning of fastening ties, according to the invention,

- figure 25 shows the connection of profiled beams in partial section: positioning of profiled beams according to the invention,

- figure 26 shows an example of a section with duplication of profiled beams and the use of a duplicated (reinforced) connecting plate,

- figure 27 depicts the assembly of a section with duplication of profiled beams and the use of a duplicated (reinforced) connecting plate,

- figure 28 shows the assembly of sections with duplication of profiled beams and the use of duplicated (reinforced) connecting plates,

- figure 29 depicts an example of an assembled structure consisting of ten sections with duplicating profiled beams and using duplicated (reinforced) connecting plates,

- figure 30 shows an example of a section of profiled beams assembled in an overlap.

- Figure 31 depicts an example of a structural part made from a metal profile.

- Figure 32 shows an example of the design of a fastening hole in a structural part made of a metal profile.

- Figure 33 shows an example of a solid cast structural part made of metal.

- Figure 34 shows an example of a fastening hole in a solid metal structural part.

Carrying out the invention

Let us consider the method of connecting structural parts using the example of profiled timber 13, keeping in mind that this most comprehensive example does not limit the application of the invention.

• mounting holes 3 are made in each profiled beam 13;

• starting nuts 7 are installed in the mounting holes 3 on the profiled beams 13 of the first section;

• form the first section of the structure, for which purpose the profiled beams 13 of the first section are installed with starting nuts 7 in the shape of the specified section and the connecting corners 10 and plates 9 are installed on the profiled beams 13 so that the mounting holes 3 on the profiled beams and connecting elements 9 and 10 located coaxially;

• through the holes on the connecting elements 9 and 10, fastening ties 5 are installed into the fastening holes 3 on the profiled beams 13 of the first section and screwed into the starting nuts 7 until they stop;

• form the second section, for which the profiled beams 13 of the second section are installed on the profiled beams 13 of the first section so that the connecting elements 9 and 10 are located between the profiled beams 13 of the first and second sections, and the mounting holes 3 are on the profiled beams 13 of the first and second sections and connecting elements 9 and 10 were coaxial;

• install the connecting corners 10 and plates 9 on the profiled beams 13 of the second section so that the mounting holes 3 on the profiled beams and connecting elements 9 and 10 are located coaxially;

• through the holes on the connecting elements 9 and 10, fastening ties 5 are installed into the fastening holes 3 on the profiled beams 13 of the second section and screwed into the fastening ties 5 of the first section until they stop;

• continue this until the required length or height of the structure is reached, depending on the horizontal or vertical method of assembly.

Optionally, a seal 31 is installed at the joints of the parts. Shown in figure 24.

Optionally, sections are formed with the parts installed in an overlap. See fig. thirty.

Optionally, profiled parts with additional transverse grooves are used, and when assembling sections, the parts are duplicated and duplicate connecting plates 11 are used, see Fig. 26-29.

The gaps between the parts are shown as 32, see Fig. 24.

Industrial applicability.

The proposed method of connecting parts can be carried out by a specialist in practice and, when implemented, ensures the implementation of the stated purpose, which allows us to conclude that it meets the “industrial applicability” criterion for the invention.

The method was tested in practice, where it was shown that due to the fact that all stages were used, in the version of the independent claim the stated technical result is achieved, namely: ensuring the stability of the geometric size of the structure obtained by connecting the parts.

This method also allows for repeated assembly and disassembly in detail in the designer mode, without damaging individual elements.

When assembling parts, no qualifications are required for assemblers, and the only tools required are a wrench.

The assembly of parts using the proposed method is much faster compared to existing technologies and is the final exterior and interior finishing, allowing the buildings to be put into operation in record time.

Also, assembling parts using a ring method eliminates the need for additional installation of the roofing structure and floor covering, which, on the one hand, creates an insulated (living) under-roof space, automatically adding an attic floor to the living area of the structure, and on the other hand, eliminates frame structures from the floor, ceilings and roof - being the most difficult in terms of quality and complexity of manufacturing.

Multiple mechanical connections in the form of connecting elements and fastening ties create spatial rigidity of the structure, preventing parts from deforming during operation.

In cases where profiled timber is used as a part, the presence of a guaranteed gap between the beams makes it possible to compensate for the moisture expansion of the wood, which allows operation in any climate. The seal, placed in the grooves of the beams, compensates for the expansion of wood during operation, creating a tightness.

That is, in the case of a wooden beam, the guaranteed gap is a compensation gap for moisture expansion of the wood, and in the case of reinforced concrete and fiber-reinforced concrete beams, these are safety gaps in case the size of the beam deviates from the reference one, in order to maintain the accuracy of the fastening screed. Otherwise, the fastening ties will not be screwed into each other all the way and an accumulating error will occur, which will lead to bending of the structure.

Structures assembled using this technology can have various section shapes. All this has been tested using examples of implemented objects and is being successfully operated.

Claims (21)

1. A method of connecting structural parts, in which: - fastening holes are made in structural parts, - sections are formed sequentially from structural parts, for which two or more structural parts are connected to each other by connecting elements, - connect the sections to each other using fasteners installed in the mounting holes, characterized in that - starting nuts and fastening ties are used as fastening elements, each of which has a corresponding external screw thread on one side and an extension with an internal thread for connection with the next fastening tie, - starting nuts are installed in the fastening holes of the structural parts of the first section, - form the first section, for which purpose the structural parts of the first section are installed with starting nuts in the shape of the specified section and connecting corners and/or plates are installed on the structural parts so that the fastening holes of the structural parts and on the connecting elements are located coaxially, - through the holes on the connecting elements, install fastening ties into the fastening holes of the structural parts of the first section and screw them into the starting nuts until they stop, - form the second section, for which the structural parts of the second section are installed on the structural parts of the first section so that the connecting elements are located between the structural parts of the first and second sections, and the fastening holes of the structural parts of the first and second sections and connecting elements are coaxial, - install connecting angles and/or plates on the structural parts of the second section so that the fastening holes of the structural parts and on the connecting elements are located coaxially, - through the holes on the connecting elements, fastening ties are installed into the fastening holes of the structural parts of the second section and screwed into the fastening ties of the first section until they stop, - continue this until the required length or height of the assembled structure is reached, depending on the horizontal or vertical assembly method. 2. The method according to claim 1, characterized in that connecting plates are used as connecting elements. 3. The method according to claim 1, characterized in that connecting corners are used as connecting elements. 4. The method according to claim 2 or 3, characterized in that profiled beams are used as structural parts, while the connecting corners and connecting plates are inserted into grooves on the profiled beams. 5. The method according to claim 2 or 3, characterized in that the structural parts are made of metal profiles, on the opposite faces of which fastening holes are made coaxially, and bushings are additionally installed in the fastening holes for positioning and preventing rotation of the fastening ties when tightening. 6. The method according to claim 2 or 3, characterized in that solid cast parts made of metal, reinforced concrete, polymer or composite materials are used as structural parts, and bushings are additionally installed in the mounting holes for positioning and preventing rotation of the fastening ties when tightening. 7. The method according to claim 4, characterized in that a sealant is installed at the joints of the profiled beams. 8. The method according to claim 4, characterized in that the profiled beams in sections are overlapped. 9. The method according to claim 4, characterized in that additional transverse grooves are made in the profiled beams, while when assembling the section, the profiled beams are duplicated, and duplicated connecting plates are used for connection.