Fold-Out Prefabricated Structure and Method for the Assembly Thereof
The invention relates to a fold-out prefabricated construction structure and method for the assembly thereof. The structure, having bays of desired width, length and shape, is made up of porticos formed by pillars and an upper structure (27). The method involves positioning the base (1) on a surface (28) and provisionally fixing at least one portion of said base. This allows opening the porticos with the help of auxiliary structures created for this purpose (14). The elements of the structure are fixed to one another, and to the surface of the portions of the base in their final position. Each of the porticos not yet fixed must be moved to their final position, in a successive manner and separately from the closest fixed portico, together with the rest of still free attached porticos, and suitably fixed to the surface.
The present patent application is comprised in the sector of construction and the object thereof is a fold-out prefabricated structure and method for the assembly thereof. Once folded out, the structure acquires a fixed width, determined during the manufacturing phase, and the desired length and shape, to be formed during the folding out phase. It is made up of porticos that are independent from one another, formed by at least two pillars and an upper structure.
To correctly fold out and subsequently use the structure there has to be a surface on which this can be done (28).
The parts forming the structure are:
A base built in one or several pieces, of materials and shape susceptible to being fixed to the surface, and prepared for being cut or separated into as many portions as there are pillars. Among its functions are that of maintaining the set of the structure attached at its lower part, forcing the pillars to remain erect and attached to same, allowing the entire folded up structure to be stood upright, allowing the pillars or sets of pillars to be moved on portions thereof and allowing all or portions of said base to be fixed to the surface, transmitting the stresses withstood by the pillars.
The pillars can have the height desired, even being able to go beyond the attachment point with the upper elements, and they are generally vertical, although it is possible to use any other arrangement, and can be of any section (circular, triangular, pentagonal, etc., or variable). The pillars can be different from one another in the same portico and between different porticos.
The upper structure can consist of any number of elements, which do not necessarily have to be identical to one another. Their final arrangement can form the desired angle, even being fixed by way of a horizontal beam, which makes it easier to create floor slabs. Furthermore, it is possible to determine whether or not the truss rafters will project out of the structure. This allows using the invention in pre-existing walls. Finally, the upper structures will generally be the same in all the porticos of one and the same structure, but they can have different shapes and compositions. The elements of the upper structure are attached to one another and to the pillars by means of articulations.
The structure is delivered folded up, taking up a smaller size than what it will take up once it is folded out.
With pillars of 267.00 cm in length and two truss rafters of 448.00 cm, a structure having three porticos would take up a total volume of 645.53 cm in length, 200.00 cm in width and 175.00 cm in depth (
Various techniques today allow making construction structures. The most common techniques involve the assembly of independent prefabricated pieces at their destination or the in situ construction thereof, requiring that workers and heavy machinery be available and travel for days or weeks, particularly if concrete is used. These needs entail higher costs for constructing any type of building and greatly limit any initiatives in this sense.
If the use of prefabricated elements is chosen, the stiff pieces (of steel, wood, ready-mix concrete or other similar materials) must be taken to the site independently and put in place one by one. This mechanism requires the presence of at least two operators on foot and an additional operator for operating the crane, the support of which will be necessary throughout the entire process. All this entails a high factory and site costs.
When prefabricated elements are not used, the reinforced concrete structures are made directly on site by at least two operators and a crane. To that end, it is necessary to use hand-crafted formworks with boards, props and other components. Due to the intrinsic progressiveness of the concrete hardening process, significant wait times must be accepted before being able to continue with the next element. For the same reason, all the elements withstanding bending (beams, slabs, etc.) cannot be under a load until 28 days after pouring the concrete. Therefore, this technique is particularly time-consuming as the dependent fragment hardening periods cannot overlap, and it is particularly material-consuming given the high number of phases, the loss of materials caused by bad weather, the limit to the number of uses of the formworks, the transport requirements given their high number, and taking into account that each concrete-pouring phase furthermore requires a concrete truck and a crane. As a consequence, it also demands a lot of manpower.
Unlike all these situations, the method for assembly object of invention enables concentrating resource consumption in the factory and reducing it at the construction site, where it is more expensive. The structure can be moved in a single trip and the need for crane is generally limited to the time required for the initial unloading, since after that activity no piece of the structure has to be lifted again, with the subsequent savings in energy, and enabling assembly by a single person. This invention is characterized by its folding out scalability and flexibility, such that it is possible to benefit from the savings generated in buildings of various shapes, sizes and materials. In summary, the invention simplifies the creation of the structure required in the construction and restoration of homes, warehouses, garages, etc., with drastic savings in the purchasing price and in the need for mechanical and human resources.
A basic embodiment of a rectangular plan structure, with two rows of three identical porticos, having vertical pillars, two truss rafters per portico, having straight elements with a rectangular section, and folded out by means of auxiliary structures formed by metal bars, depicted in
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The process for folding out the mentioned structure having three porticos (
Furthermore, for structures with more than 2 porticos, the most efficient process would begin by fixing one of the central porticos in its final position, followed by the movement of the remaining porticos in opposite directions, depending on the side of the already fixed portico on which they are located, such that movement stress is minimal. However, to avoid redundancies in the description, the process will begin at one of the ends.
The assembly begins with unloading the structure, at which time the pillar 8 must be placed in their final position (18), where their corresponding portion of the base (2) will be fixed by means of suitable techniques (welding, screws, bonding, etc.). After securing the first portion of the base, the current example requires a provisional fixing between the portion of the base (4) of the pillar (10) and the surface in position (24). This securing confers a static position to the first row of pillars and allows opening the second one to its final position without requiring a crane or heavy machinery. To that end, one or several auxiliary structures (14) must be assembled assuring the relative arrangement between sets of pillars while the opening takes place, and the suitable movement mechanism, for example, winches and cables, towing vehicles, jacks, wheels, etc., must be provided. When all these elements are in position, a longitudinal cut (17) is made dividing the base into two rows (
There are a number of solutions for the upper part of the structure. Both the articulations attaching the pillars with the truss rafters and the truss rafters to one another, and the form of attachment of these points, are completely versatile, generating a wide range of possibilities in the finish of both roofs and floor slabs. Furthermore, when the upper part of the structure is made up of more than 2 elements, additional actions must be carried out to open it. Specifically, temporary fixing elements (32) reducing the movements of all those elements to standard protocol must be used. In such case, the porticos are opened in stages and the elements are gradually fixed as they reach the desired position. To complete the folding out, this activity must be performed in a successive manner until all the upper elements are fixed (
The activities included in the following paragraph describe in detail the process of moving the porticos and must be performed n−2 times, where n is the number of porticos. This is because all the central porticos (i.e., those that are neither the first nor the last) share a single movement routine. Given that this invention exemplifies a structure having three porticos, the following routine is carried out just once.
The auxiliary structures (14) must be assembled between the pillars of the most recently fixed portico and the portico that is going to be moved next (
In order to move the last of the porticos, the remaining stiffening elements (29) must be removed, the auxiliary structures must be installed between the last and next to last porticos (
Lastly, the auxiliary structures and the movement mechanism are disassembled.
Claims
1. A prefabricated construction structure having any number of porticos that allows obtaining a final structure of various shapes and dimensions, which is delivered folded-up, comprising a base (1) built in one or several pieces, susceptible to being fixed to the surface and prepared for being cut or separated into as many portions as there are pillars, said pillars (8, 9, 10, 11, 12, 13) having any dimensions, shape, section and inclination, attached to the base, which can be different from one another, an upper structure (27) made up of elements of any length, shape and section, which can be different from one another, with finishes that allow fitting with others at the chosen angle, attached to one another and to the pillars by articulations or other moving elements (25, 26), which are delivered folded-up and expanded to their final position throughout the fold-out process, stiffening elements (29) providing strength to the conglomerate and allowing groups of structural elements to be opened and moved as a result of auxiliary structures (14) assuring the relative arrangement between sets of pillars during the required fold-out movements.
2. The prefabricated structure according to claim 1, characterized in that the base and the pillars form a single piece.
3. The prefabricated structure according to claim 1, characterized in that the high part of the pillars and the upper structure incorporate the elements required for configuring a truss (30).
4. The prefabricated structure according to claim 1, characterized in that various porticos open out from a single central pillar (33), having said pillar in common.
5. The prefabricated structure according to claim 1, characterized in that other “upper structure-pillar” sets are coupled to the portico formed by “pillar-upper structure-pillar”, such that the intermediate pillars (34) are shared by two upper structures.
6. The prefabricated structure according to claim 1, characterized in that it incorporates intermediate structural elements (31) that allow creating additional floors.
7. The prefabricated structure according to claim 1, characterized in that the number of elements forming the upper structure is greater than two, where temporary fixing elements (32) are required for the sequential folding out of the elements.
8. The prefabricated structure according to claim 1, characterized in that the articulations are located at intermediate points of the elements of the structure, either the pillars or upper elements, by way of moved articulations (35).
9. A method for forming a structure according to claim 1, consisting of positioning the base (1) on a surface (28), provisionally fixing at least one portion of said base to the surface, opening the porticos by moving the non-fixed pillars (11, 12, 13) using a movement mechanism and one or several auxiliary structures (14) assuring the stability of the structure and the relative arrangement between both sets of pillars, definitively immobilizing the attachment of the upper elements to one another and to the pillars once they are completely opened, fixing the portions of base of the pillars that have acquired their final position on the surface, and for each of the porticos or pillars not yet fixed, in a successive manner, eliminating the stiffening elements (29), attaching it to the adjacent fixed portico, moving it to its final position, using the auxiliary structures, together with the rest of porticos yet to be fixed contiguous to same, if there are any, and fixing it by means of a method suitable for the surface.
10. The construction structure according to claim 1, folded out by means of the method for the assembly thereof according to claim 8.
11. The method for forming the structure according to claim 8, wherein the function of the auxiliary structures (14), of maintaining relative arrangement of the moved pillar, is undertaken by alternative solutions, such solutions being able to include the use of heavy machinery.
Type: Application
Filed: Jan 20, 2015
Publication Date: Oct 5, 2017
Inventor: Angel Vidal de la Fuente (Madrid)
Application Number: 15/511,010