• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Constructive system comprising at least one configuration profile as a "z" (1) stackable with other "z" profiles (1). It has a constant section with a core (3) with two ends from which two wings (4) extend and with respective extensions (5) that start from each wing (4) with obtuse angle with respect to said wing (4), and said extensions (5) are parallel to each other and extend in opposite directions to a free extremity. It further comprises at least one constructive element (2) of symmetrical configuration formed by at least two "z" profiles (1) which are arranged with their collinear wings (4) and in which the end of one of the z profiles it faces the free end of another profile in z, and by joining elements that join the two "z" profiles. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2610466A1
    申请号:ES201531536
    申请日:2015-10-27
    公开日:2017-04-27
    发明作者:Raul FRANCO DELGADO
    申请人:Raul FRANCO DELGADO;
    IPC主号:
    专利说明:

    OBJECT OF THE INVENTION
    The present invention is part of the technical field of construction. A construction system is described that comprises at least one "Z" profile that has the advantage of being stackable with other equal profiles to facilitate storage and transport. In addition, the "Z" profile can be combined with at least one other "Z" profile to form a construction element that can be used for porches, trusses, pillars, etc. BACKGROUND OF THE INVENTION
    Currently, most truss and porch-type constructions are made by joining a plurality of metal beams that join together to form a specific structure. Most of the beams used have profiles in "I", angular, tube, etc. and are joined together by welding or rivet screws.
    The most important technical problem associated with the use of such profiles is that large storage and transport spaces are needed. This is because the profiles cannot be placed simply in an orderly manner. In most cases, the profiles are placed, without paying attention to their specific orientation, in the storage or transport space, leaving a lot of wasted space between profiles. This option allows you to quickly load the means of transport or allows you to quickly store the profiles that are not being used.
    In case you want to properly place the profiles to maximize the use of space for storage or transport it is necessary to invest a lot of time in the correct distribution of the profiles.
    Another disadvantage of current constructions is that it is necessary to use different types of beams which makes construction difficult. This also hinders


    work of control of stock of beams, the storage and transport of these, etc. DESCRIPTION OF THE INVENTION
    The present invention describes a constructive system that allows solving the current problems of the state of the art. More specifically, the construction system comprises at least one "Z" profile that is stackable with other equal "Z" profiles. This "Z" profile, being stackable, can be stored and transported conveniently and easily and therefore saves a lot of space, time and costs.
    The "Z" profile has a constant section configuration comprising a soul with two ends from which wings respectively extend in opposite directions and extensions extending from the wings in parallel directions and opposite directions to each other. Thanks to the fact that the section is constant and that the extensions extend parallel to each other, it is possible to stack the “Z” profiles in a comfortable way.
    In addition, the fact that the extensions extend with a certain inclination with respect to the wings guarantees that once placed some profiles on others they will not be separated but that they will be kept well stacked. That is, the extensions act by retaining the extensions of the "Z" profiles that are stacked on each previously placed "Z" profile.
    Another important advantage provided by the present invention is that the construction system also comprises construction elements that have symmetrical configuration and are formed by at least two "Z" profiles as described above. For this, the "Z" profiles are arranged with their collinear wings and the tip of one of the extensions of one of the "Z" profiles is facing the tip of one of the extensions of the other "Z" profile. The construction element also has joining elements to ensure the position of the "Z" profiles and ensure structural strength. In this way, the construction elements of the construction system can be used to replace other types of beams guaranteeing a correct resistance to the loads that the construction in which it is used may suffer.


    In cases where it is necessary to have a better resistance to loads, the construction system may comprise construction elements that have two additional "Z" profiles, stacked respectively on the previously described "Z" profiles.
    Preferably, the "Z" profiles are formed with galvanized sheets in origin. This is a technical advantage since it has greater protection and no further operations are necessary for the application of galvanizing that are more expensive and less effective.
    Also preferably the "Z" profiles are formed by manufacturing in profiler and not in folder. This allows to manufacture much faster and in addition in the profiling machine the corresponding drills can be made. These are automated operations that guarantee very good results and manufacturing in very short times. DESCRIPTION OF THE DRAWINGS
    To complement the description that is being made and in order to help a better understanding of the characteristics of the invention, according to a preferred example of practical implementation thereof, a set of drawings is attached as an integral part of said description. where, for illustrative and non-limiting purposes, the following has been represented:
    Figure 1.- Shows a view of a “Z” profile of the construction system.
    Figure 2.- Shows a view of a plurality of stacked "Z" profiles.
    Figure 3a.-Shows a view of a construction element formed with two "Z" profiles with two clips arranged inside the construction element.
    Figure 3b.-Shows a view of a construction element formed with two profiles in


    "Z" with a clip arranged inside the construction element and another outside.
    Figure 3c.-Shows a view of a construction element formed with two "Z" profiles with two clips arranged inside the construction element and two others outside. Figure 4.- Shows a view of a construction element formed with four profiles
    in "Z" stacked two to two to have more resistance than with the construction element of Figure 3.
    Figure 5.- Shows a view of a porch formed with the construction system.Figure 6.- Shows a view of a junction point between two construction elements of theporch of figure 5.
    Figure 7.- Shows a perspective view of the portico of Figure 5.
    Figure 8.- Shows a view of a porch with a large beamconformed with the constructive system.Figure 9.- Shows a view of a junction point between a construction element and a
    bar formed by the union of two “C” profiles of the portico of figure 8.Figure 10a.-Shows a view of an omega profile.Figure 10b.-Shows a view of an omega profile with a clip arranged inside
    of the profile oriented within the profile.
    Figure 10c.-Shows a view of an omega profile with a clip arranged insideof the profile facing out of the profile.Figure 11a.-Shows a view of a gutter profile.Figure 11b.-Shows a view of a gutter profile with a clip arranged in the


    inside the profile.
    Figure 12.-Shows a view of stacked omega profiles for transport.
    Figure 13.- Shows a view of stacked gutter profiles for transport. PREFERRED EMBODIMENT OF THE INVENTION
    An example of embodiment of the present invention is described below with the aid of Figures 1 to 13.
    The construction system comprises at least one configuration profile as a "Z"
    (one) which has the advantageous characteristic that due to its specific configuration it is stackable with other "Z" profiles (1) equal. A “Z” profile is shown in figure 1
    (one)  and in figure 2 a plurality of stacked "Z" profiles (1) have been represented.
    Said at least one "Z" profile has a constant section comprising a soul (3) with two ends and two wings (4) that extend perpendicular to the soul (3) from each of its ends in opposite directions. Likewise, the section of the "Z" profile comprises two extensions (5), where each extension (5) extends in turn from one of the wings (4) with an obtuse angle, preferably 135 °, with respect to said wing (4) , and said extensions (5) are parallel to each other and extend with opposite directions to a free limb.
    In an exemplary embodiment, the construction system comprises a construction element.
    (2) as shown in figures 3a, 3b and 3c. The construction element (2) has a symmetrical configuration formed by at least two "Z" profiles (1) that are arranged with their collinear wings (4) and in which the tip of one of the Z profiles is facing the free end of another profile in Z, and by connecting elements that join the two profiles in "Z".
    (2) of the construction system comprises two additional "Z" profiles (1) that are
    In another embodiment as shown in Figure 4 the construction element


    stacked respectively on the "Z" profiles (1) which are also arranged with their collinear wings (4) and in which the end of one of the additional "Z" profiles faces the free end of the other profile in " Z ”additional. This embodiment is especially used in cases where the construction element has to withstand high loads. By understanding four "Z" profiles, the strength of the construction element
    (2) is greater than in the case in which it is formed with only two "Z" profiles.
    Preferably, the joining elements that join the two "Z" profiles (1) of the construction elements (2) are clips (6) that are attached to the soul (3) or to the wings (4) of the "Z" profiles. ”, As seen for example in Figures 3a, 3b and 3c.
    In one example the construction system comprises at least one clip (6) attached to the souls (3) of the "Z" profiles and at least one clip (6) arranged around the wings
    (4) of the additional "Z" profiles (1) and attached to said additional "Z" profiles (1).
    When you want to build trusses, porches, pillars, etc. The constructive system may comprise constructive elements (2) with a cut at one of its ends intended to receive another constructive element (2) for the union of both. An example of this type of construction has been represented in Figure 5 where a truss is shown. Said truss comprises a plurality of constructive elements (2) joined at a point where one of the ends of a constructive element (2) comprises a cut suitable for joining.
    In this case, the system can additionally comprise at least one intermediate piece (7) intended to join both construction elements (2) to join them together as shown in Figure 6 where a detail of the union of the joints has been shown. construction elements (2) of the truss of figure 5. Said intermediate piece (7) is arranged in the space generated between the souls (3) of the "Z" profiles (1) of said construction elements (2) and joined to them as seen in figure 7.
    Another embodiment that can also be used for the construction of trusses, porches, pillars, etc. shown in figure 8 the construction system additionally comprises at least one bar (8) housed, at least partially, between


    the souls (3) of the "Z" profiles (1) of the at least one constructive element (1) and attached to them. The construction system can also be used for the construction of smaller structures, such as greenhouses, garages, etc.
    The joints of the “Z” profiles (1) and of the construction elements (2) of the construction system are preferably made with screws, without any welding, neither in the workshop nor in the work. This provides a greater guarantee of protection and elimination of welding execution controls.
    Preferably the bars (8) comprising the construction system are formed by the union of two profiles in "C" or "U". These profiles are placed with their souls in contact and joined together to increase resistance.
    Figure 9 shows a detail of the connection between construction elements (2) and bars (8) of the truss shown in Figure 8.
    In an exemplary embodiment, the construction system may additionally comprise at least one omega profile (9) as shown in Figure 10. This omega profile (9) has a "U" configuration with two omega souls (10) parallel between yes, an omega base
    (eleven) that joins both omega souls (10) by one of its ends, two omega wings (12) that extend from the other ends of omega souls (10) in a direction parallel to the omega base (11) but in opposite directions, and two inclined omega extensions (13) extending from the omega wings (12) with an obtuse angle with respect to said omega wings (12) and in convergent directions.
    Figure 10a shows the omega profile (9) that is specially designed to be used when the construction system in the construction of portals of moderate lights such as greenhouses, sheds, garages, small warehouses, etc. Omega wings (12) with omega extensions (13) increase the stiffness and strength of the profile. They also allow to reduce warping when omega profiles
    (9) They undergo compression or compound flexion. Likewise, the omega profiles (9) can also be used as a belt in decks or mezzanines.


    In figures 10b and 10c an omega profile (9) with a clip (6) is shown. These embodiments allow to increase the rigidity of the omega profile (9) if necessary in the construction in which the construction system is being used.
    Additionally, the construction system can comprise a gutter profile (14) as shown in Figure 11. This type of profiles is used to collect the water that falls through the roof of the construction in which it is used, it can be used as the last belt of roof, such as a tying beam between porticoes in the cross of San Andrés to increase resistance against longitudinal thrusts such as those caused by wind, crane bridges, etc.
    As seen in Figure 11, the gutter profile (14) has a "U" configuration with two gutter souls (15) parallel to each other, a gutter base (16) that joins both gutter souls (15) by one of its ends, a first wing (17) extending from the end of a gutter core (15), parallel to the base (16), and comprising at its end a first extension (18) extending perpendicular to it and parallel to the gutter soul (15), and a second wing (19) extending from the end of the other gutter soul (15) with an obtuse angle and comprising at its end a second extension (20) extending with an angle obtuse about her.
    The gutter profiles (14) can also be used as a bundle of the side closure, holding it at the top with the first wing (17) whose width depends on the width of the closure (sandwich panel, concrete panel, factory closure on site, etc.). This length can vary between 5cm and 15cm or even reach longer lengths.
    The omega (9) and gutter (14) profiles can be manufactured in profiling machine to obtain a higher manufacturing speed and to automate the cutting and drilling, or in a folding machine in case predefined widths are desired. For its manufacture, it is based on galvanized sheet in origin, with the advantages of price and guarantee of protection, so it is not necessary to paint the structures.

    权利要求:
    Claims (9)
    [1]
    1.-Construction system characterized in that it comprises at least one "Z" configuration profile (1) that is stackable with other "Z" profiles (1) that has a constant section consisting of:
    - a soul (3) with two extremes,
    - two wings (4) that extend perpendicular to the soul (3) from each of its
    ends in opposite directions,
    - two extensions (5), where each extension (5) extends in turn
    from one of the wings (4) with an obtuse angle with respect to said wing (4), and said
    extensions (5) are parallel to each other and extend in opposite directions
    to a free limb.
    [2]
    2. Construction system according to claim 1 characterized in that it comprises a construction element (2) of symmetrical configuration formed by at least two "Z" profiles (1) which are arranged with their collinear wings (4) and in which The extremity of one of the Z-profiles is facing the free extremity of another Z-profile, and by connecting elements that join the two "Z" profiles.
    [3]
    3. Construction system according to claim 2 characterized in that the construction element (2) comprises two additional "Z" profiles (1) that are stacked respectively on the "Z" profiles (1) which are also arranged with their wings
    (4) collinear and in which the tip of one of the additional "Z" profiles is facing the free end of the other additional "Z" profile.
    [4]
    4. Construction system according to claim 2 characterized in that the joining elements are clips (6) that are attached to the soul (3) or to the wings (4) of the "Z" profiles.
    [5]
    5. Construction system according to claims 3 and 4 characterized in that it comprises at least one clip (6) attached to the souls (3) of the "Z" profiles and at least one clip (6) arranged around the wings ( 4) of the additional "Z" profiles (1) and attached to said additional "Z" profiles (1).

    [6]
    6. Construction system according to claim 2 characterized in that the construction element (2) comprises a cut at one of its ends intended to receive another construction element (2) for joining both, and the system additionally comprises at least one piece intermediate (7) intended to join both construction elements (2) to join them together and said intermediate piece (7) is arranged in the space generated between the souls (3) of the "Z" profiles (1) of said elements constructive (2) and attached to them.
    [7]
    7. Construction system according to claim 2 characterized in that it additionally comprises at least one bar (8) housed, at least partially, between the souls (3) of the "Z" profiles (1) of the at least one construction element ( 2) and attached to them.
    [8]
    8. Construction system according to claim 1 characterized in that it comprises
    additionally at least one omega profile (9) that have a "U" configuration with:
    - two omega souls (10) parallel to each other,
    - an omega base (11) that joins both omega souls (10) at one end,
    - two omega wings (13) extending from the other ends of the omega souls (10), in a direction parallel to the omega base (11), but in opposite directions,
    - two inclined omega extensions (13) extending from the omega wings (12) with an obtuse angle with respect to said omega wings (12) and in convergent directions.
    [9]
    9. Construction system according to claim 1 characterized in that it comprises
    additionally at least one gutter profile (14) having a "U" configuration with:
    - two gutter souls (15) parallel to each other,
    - a gutter base (16) that joins both gutter souls (15) by one of its ends,
    - a first wing (17) extending from the end of a gutter core (15), parallel to the base (16), and comprising at its end a first extension (18) extending perpendicular to it and parallel to the soul gutter (15),
    - a second wing (19) extending from the end of the other gutter soul

    (fifteen) with an obtuse angle and comprising at its end a second extension
    (twenty) which extends with an obtuse angle to it.






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    同族专利:
    公开号 | 公开日
    ES2610466B1|2018-02-06|
    WO2017072389A1|2017-05-04|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3225872A|1962-12-31|1965-12-28|Nat Steel Corp|Structural member|
    FR1534870A|1967-06-21|1968-08-02|Profil Sa Ind Financ Le|Profile, in particular for building frames|
    US3606418A|1969-03-10|1971-09-20|Armco Steel Corp|Structural member|
    GB1488791A|1974-11-27|1977-10-12|Titmuss F|Building constructions|
    GB1602921A|1978-03-20|1981-11-18|Winstone Ltd|Elongate structural element|
    GB2130619A|1982-11-02|1984-06-06|Phillips Structures Ltd|Agricultural buildings|
    EP0440567A1|1990-02-02|1991-08-07|Profilcometube|Simple and double girders and posts constituted by the connection of Z-shaped profiles, and permitting in particular the realization of a frame or a bracket, for use in a building's construction|
    BRPI0902183B1|2009-03-23|2021-04-06|Carlos Alberto De Almeida Borges|TRELIQUE BEAM|US10443239B2|2016-12-02|2019-10-15|Columbia Insurance Company|Long span masonry lintel support system|
    US10480197B2|2017-04-04|2019-11-19|Columbia Insurance Company|Masonry support|
    法律状态:
    2018-02-06| FG2A| Definitive protection|Ref document number: 2610466 Country of ref document: ES Kind code of ref document: B1 Effective date: 20180206 |
    2021-10-04| FD2A| Announcement of lapse in spain|Effective date: 20211004 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201531536A|ES2610466B1|2015-10-27|2015-10-27|CONSTRUCTION SYSTEM|ES201531536A| ES2610466B1|2015-10-27|2015-10-27|CONSTRUCTION SYSTEM|
    PCT/ES2016/070765| WO2017072389A1|2015-10-27|2016-10-27|Construction system|
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