ITUA20164084A1 - Angular pyramidal bracket with fixing rings and sliding guides. - Google Patents

Description

Pyramid-shaped corner bracket with fixing rings and sliding guides

The present invention consists in the realization of a connection in steel or other materials used for structural use, which allows to connect beams and pillars without using other internal or external connection systems.

As already known, there is great industrial interest in finding economic and eco-sustainable solutions compared to the traditional method and at the same time allowing the assembly or disassembly of constructions that can be built by reducing construction times, while ensuring the static reliability of the entire structure.

The traditional method of connecting beams and pillars, in the wood-wood, wood-steel or steel-steel connection system, is one of the main causes for poor installation, if the workforce is not highly specialized. This involves high costs for the implementation of reliable connections or a low degree of reliability for the entire structure (the connection system is the most important structural part of any work).

The state of the art, in creating buildings that can be assembled and possibly disassembled, evidence that they are not very reliable in the installation phase. Furthermore, it should be noted that contemporary connection systems often present various critical issues: low guarantee in the static reliability of the connection itself, inability of the operator who performs the

assembly to ensure assembly and installation a

"Rule of art", the need to use other reinforcements

structural (screws, rivets), many non connections

then allow to disassemble the structure in addition to the difficulty

assembly and transport etc.

The state of the art highlights several examples of connections, in

<illustrative way, the following patent documents are cited:>

US D719437S, “The ornamental design for square base pyramidcomer bracket”, it is an angular bracket that requires screws to be able to connect the <structural elements.>

EP1564337A1 "Module pour système constructif modulaire", describes the modular system of a construction type <container.>

CN102912909B “Spherical pyramid glass curtain wall construction method and curtain wall unit connecting system therein”, It is a construction system to cover large covering spans.

However, the proposed invention employs a system of

connection new in its use and inventive in terms of weight,

measure, shapes and volume.

The use of this connection allows the use of materials

environmentally friendly, reducing assembly times and permitting

then eventually disassembly, it turns out that this connection

it is eco-sustainable in its purpose.

Avoiding nailing systems between pillars and beams

allows you to change the concept of designing the structure

it therefore has a positive effect for the operators who owe it

mount and then disassemble if necessary.

Consequently, the present invention relates to a connection system where the pyramid-shaped steel angular bracket consisting of prefabricated steel rings is used for all the inter-pillar connections of the entire structure. The beams and pillars can be either steel-steel, wood-wood or steel-wood. What guarantees stability to the entire structure is not only the corner bracket but also and above all the steel cable which has the purpose of connecting the rings from one bracket to another. During the assembly phase, the angle bracket is sufficient to guarantee assembly in complete safety since it is equipped inside with special shapes identical to the measures of the pillar or beam, which are embedded inside these supports. In the next phase, the operator by connecting a ring of a bracket to the opposite bracket guarantees the static nature of the structure. Avoiding the nails, then the structure can be dismantled quickly.

In addition to the assembly that takes place quickly, thanks to the solution of mounting without screws and nails, the operator who performs this construction phase has no responsibility for the connection system because everything is guaranteed by the various cable connections that do not allow the operator to discretion in the phase. of their connection.

The beams and pillars are hermetically sealed and provide for the dissipation of energy from the cable connection. This connecting element between the walls, the roof, the floor and the sub-structure determines a structural reinforcement of the entire structure with the advantage of obtaining a removable or mountable structure which has the same mechanical characteristics as a single-block prefabricated casing.

The present invention will now be described, for illustrative but not limitative purposes, according to a preferred embodiment thereof, with particular reference to the figures of the attached drawings, in which:

- Figure 1 shows a perspective view of a pyramid-shaped bracket consisting of guides that are intended to facilitate the insertion of the beams and the pillar (excluding the presence of rings at the edges). These guides, in addition to facilitating the operator for the beam-pillar connection, have the multiple function of ensuring the temporary stability of both the beams and the pillar for the connection works of the other nodes of the structure.

- Figure 2 shows a perspective view of the pyramid-shaped bracket, as Figure 1, with the addition of the rings that have the function of connecting the different brackets of the structure once assembled and ensure the final stability of the entire completed structure.

Figure 3 shows a perspective view of a structure where each node of it is present the pyramidal bracket that connects the beams with the pillar ensuring local stability while the rods that connect the different brackets guarantee the overall stability of the structure.

- figure 4 shows a perspective view, an example, of the skeleton of a structure excluding beams and pillars and showing only rods and nodes.

- figure 5 shows some details, perspective view, after assembly using the fixing device (pyramidal bracket and connecting rods between the different brackets) which, in addition to ensuring a suitable joint, is effective for dissipating energy from external sources;

- Figure 6 shows a sketch of the beam-column detail with mounted bracket.

In conclusion, the described pyramid-shaped bracket and the related mounting method constitute a new and inventive alternative to the state of the art, solving a series of industrial problems connected to the reliability and speed of assembly of the structural connections between beams and pillars, whether they are wood-wood or steel-wood or steel-steel or other materials.

This fastening device guarantees: local and global structural safety of the entire building structure, eco-sustainability in the assembly phase (allowing any disassembly and therefore reuse and not damaging the structural elements so that avoiding the use of nails or screws), time reduction and costs for both assembly and disassembly (a single operator with simple equipment can perform the assembly of the beam-wood connection) etc.

The present invention has been described by way of illustration, but not of limitation, according to its preferred embodiments, but it is to be understood that variations and / or modifications may be made by those skilled in the art without thereby departing from the relative scope of protection, as defined from the attached claims.

Claims (1)

CLAIMS 1- Pyramid-shaped bracket, made of steel or materials with the same physical-mechanical characteristics. The size of the sides depends on the degree to be supported by the structure, however its measurements for each side are 30 ÷ 100 cm. This bracket is able to offer a quick assembly of beams and pillars guaranteeing at the same time, compared to traditional joining systems, greater guarantee of the beam-pillar connection. No screws and nails are required for this fastener. 2- The pyramid-shaped bracket, characterized by rings at the edges and internal sliding guides that indicate how to insert the beams and the pillar. This form of bracket consisting of rings and guides allows, compared to traditional brackets or any other union, to eliminate the intrinsic installation errors in this phase where the operator must perform the inter-column connection. In fact, in conventional structures, the beam-pillar connections are oversized to eliminate any errors in implementation by the worker. This new type of connection will facilitate installation even for unskilled workers, thanks to the internal sliding guides that indicate how to introduce the beams into the pillar. 3- This device, a pyramid-shaped bracket equipped with rings at its outer edges, allows you to connect not only the beams with the pillars that come inside the bracket, but thanks to the connection by means of ropes or bars, the various brackets of the entire structure are connected . Carrying out this foresight guarantees the global and not just local reliability of the entire building artifact. 4- The advantage of this pyramid-shaped device consisting of rings affixed to the outer edges and internal guides for positioning the beams with pillar allows you to avoid any nailing and screws that are instead necessary in traditional brackets of any shape for structural use. Not using secondary elements for fixing (nails or screws) greatly facilitates the work of setting up the person who has to do the assembly, with the improvement that there is no need for special tools to fix the structure. 5- The pyramid-shaped bracket that connects other pyramid-shaped brackets by means of ropes or bars, without the use of nails or screws, allows not only easy and quick assembly but also a possible disassembly. Compared to traditional connections, this device guarantees disassembly without damaging the structural elements (beams and pillars). This peculiarity of the bracket, disassembling without damaging, allows the reuse of structural elements (beams and pillars). 6- The fixing device, pyramid-shaped bracket, characterized by being composed, each bracket, of 3 internal guides that allow not only the easy introduction of the pillar and the beams, but guarantees the operator to be able to carry out the assembly in complete safety since both the beams and the pillar are temporarily fixed to each other, avoiding the danger that a structural element (beam or pillar) can change the plane-altimetric position and cause damage to the operator and also to the correct positioning of the structure.