WO2015021569A1 - Floating anti-seismic frame - Google Patents

Abstract

The present invention relates to an anti-seismic system, with controlled deformation, for every type of vertical or horizontal communication, pedestrian or vehicular link within a structure, be this a house or a building for general use, or between the building and the exterior, which is provided with a plurality of energy-dissipating components or force absorbers placed in different forms and at different angles between an interior frame and an exterior frame, with the result that said energy-dissipating components absorb said deformation, maintaining the interior frame and the door or the window substantially intact, also preventing blocking against the frames and immobilization of the lock such that it is possible to open doors and windows, since, currently, movements of the earth's crust frequently deform the frame of the door or window and jamming occurs, and the lock of the door or the system for opening or closing the window is immobilized, this problematic issue being successfully resolved in an effective manner by means of this solution.

Description

 ANTISISMIC FLOATING FRAME

The present invention relates to an anti-seismic system, with controlled deformation for all types of pedestrian or vehicular communicational connection, vertical or horizontal, within a house either a house or building for general use or between the building and the exterior, provided with a plurality of energy dissipating parts or force dampers; located in different shapes and angles between an inner frame and an outer frame making said energy dissipating parts absorb said deformation, keeping intact mainly the inner frame and the door or the window, also avoiding sealing against the frames and at the same time the lock is not locked; so that its opening is possible, since at present it is frequent that with the telluric movements the frame of the door or window is deformed and the binding occurs and the door lock or the opening or closing system is locked. the window, problematic that can be solved with this solution and effectively.

At present, there are no systems oriented to solve the problem of clogging or clogging of doors or windows, when telluric movements occur, rather, they are aimed at general protection against theft or in protecting the crushing of the fingers of the people against the edges of the doors. Regarding the state of the art to prevent the fracturing of the doors, we can cite the utility model ES 280 835, which refers to a door, provided with a door leaf, from one of whose faces A lock box is embedded in the sides, and hinged brackets can be anchored from the other side face, characterized by the fact that the edge of the corresponding door leaf next to the hinge side; it is embraced by a profile rail approximately in the form of "U" in its cross section and provided with openings for the passage of bolt elements, and because advantageously, also its corresponding edge on the side of the hinges is embraced by a profiled rail with a "U" shaped cross section. Advantageously, the edge of the side of the lock, the upper edge and the edge of the side of the door leaf hinges, are embraced by a rail that forms a three-sided frame and, in particular, has a constant cross-section in full length In this way, both the edge of the side of the lock and the side of the hinges of a door leaf are reinforced in such a way that it complies with the current requirements on resistance and safety against fracture. If, with it, the rail has a step provided in its bore, the edge is arranged in a slot in the frame.

The present invention aims to control the structural deformation of the inner frame as well as the outer frame, so as to prevent them from coming into contact at some point of the edge of the door or window, thereby achieving that the door is not thickened with the lock; which will allow the user not to be trapped inside the home, as is often the case today, in the same way this system is applied in the windows, in which it is sought that they do not cause damage to the glass and sealing in your system Opening or closing.

To improve all existing shortcomings, a system of frames provided by a plurality of energy dissipating parts with controlled deformation has been configured, which allows the force to build up between the frames in an earthquake, absorbing deformation and avoiding deformation. the closure and destruction of the door or window.

Description of the Drawings

To better understand the system of floating frames, to avoid deformation of the door or destruction, we will describe it according to the drawings that are an integral part of this invention, without this limit or restrict modifications that may arise in an obvious way, where:

 Fig. 1 corresponds to an exploded perspective view of each of the elements or means comprising the anti-seismic frame system.

Fig. 2 shows an exploded perspective view of the inner and outer frame, provided with the system of energy dissipating parts or force damping.

Fig. 3 shows a front elevation view of the inner frame and the exploded outer frame, for installation in a door.

Fig. 4 shows a front view of the frames with the door installed on a wall of a house.

Fig. 5 shows a view with a detail of the upper vertex that occurs with the union of the inner frame and the outer frame, with the installation of some energy dissipating parts or force damping.

Fig. 6 shows a perspective view with a detail of the lower frontal area of a stringer of the inner frame, where it can be seen in the lower base of said stringer, a heel or dissipating piece of energy and in the outer wall some pieces energy dissipators or force dampers.

Fig. 7 shows an energy dissipating or damping part, to be installed between the inner frame and the outer frame. Fig. 8 shows a view of an energy dissipating or damping part, for arrangement as energy dissipating legs, in the lower part of the inner frame stringers. Fig. 9 shows a perspective view of the interior frame and the door.

Fig. 10 shows an exploded perspective view of an outer frame with an inner frame, for use in residential windows.

Fig. 11 shows a front view with the window frames installed on a wall.

Description of the invention

In attention to figures 1 to 11, the anti-seismic system for door and window frames of homes or the like, is formed with an outer frame (1), followed by an inner frame (2). The outer frame (1) of the door (19), is constituted with an upper transverse profile (3) and lateral longitudinal profiles (4), all of a U-shaped transverse configuration. The ends of the transverse profile (3) as the upper ends of the longitudinal lateral profiles (4), have a diagonal cross-section (5), the lower ends of the latter being straight (6); In addition, its lateral fins (7) have the edges with a straight perpendicular fold (8) and the bottom (9) of said profiles (3) and (4) have smaller equidistant perforations (10) and greater upper and lower and central perforations ( 10a), the latter being perforations (10a), for fixing both frames (1) and (2) with the wall of the wall (10b) of the house. Seismic frames for doors or windows can use fixing means, such as perforations, by welding or other existing means. The inner frame (2) of the door (19), is formed by an upper crossbar (11) and longitudinal lateral stringers (12), of tubular configuration, provided by its front and rear walls, with equidistant quadrangular laminar pieces (13 ), as reinforcement means, and energy dissipators; the longitudinal stringers (12), are provided in the lower base, with a leg (12a) energy dissipator against the floor surface (12b) (see figure 1) and the area of the upper edge of the door, which avoids the deformation of said inner frame (2), of the door.

The inner (2) and outer frame (1) of the window (18), in addition to the upper cross member (11) and upper cross profile (3), have a lower cross member (11a) and a lower cross profile (3b), also provided with the reinforcement means and energy dissipating parts, similar to the means of the door, except the installation of the energy dissipating part (12a), located in the lower area of the inner frame stringers (12) (2) , (see figures 10 and 11). Both on the upper wall of the crossbar (11) and on the outer side walls of the longitudinal stringers (12), it has fixing means (14), with energy dissipation or impact damping parts, preferably in the form of "Z" (15) or other geometric dissipative energy conformations, provided with fixing means such as perforations (16) or other fixing means, both in the upper and lower areas, the perforations being in the upper area (16) for internal fixing with the bottom holes (9) of the upper transverse profile (3) and lateral profiles (4), thus leaving the inner frame (2) monolithically with the outer frame (1). Said energy dissipation pieces (15) are installed in the area of the upper wall of the crossbar (11) and in the outer side walls of the longitudinal stringers (12) of the inner frame (2), as many as the length of the upper crossbar (11) as of the longitudinal stringers (12).

The inner walls of the longitudinal stringers (12) of the inner frame (2), have perforations, both in the upper, central and lower area, which allow the door (19) to be fixed to said inner frame (2), by means of hinges (20) (see figure 1).

Claims

1. - An anti-seismic system with controlled deformation in all types of pedestrian or vehicular communicational connection, vertical or horizontal, within a dwelling, whether house or building, for general use or between the building and outside, which allows avoiding sealing and maintaining the usual operation of said horizontal or vertical bonding, CHARACTERIZED because to achieve controlled deformation of vertical or horizontal bonding (communication) there is a plurality of energy dissipating devices or force dampers arranged equidistant or irregularly according to the needs, between the Inner frame (2) and the outer frame (1).

2. - An anti-seismic system with controlled deformation in all types of pedestrian or vehicular communicational connection, vertical or horizontal, within a dwelling, either house or building, for general use or between the building and the exterior, according to claim 1,

 CHARACTERIZED because the outer frames are constituted with an upper (3) and lower (3a) transverse profile and lateral longitudinal profiles (4), preferably of a "U" shaped transverse configuration; the ends of the transverse profile (3) as the upper ends of the longitudinal lateral profiles (4), have a diagonal cross-section (5), the lower ends of the latter being straight (6); in addition its lateral fins (7) present their edges with a straight perpendicular fold (8).

3. - An anti-seismic system with controlled deformation in all types of pedestrian or vehicular communicational connection, vertical or horizontal, within a dwelling, either a house or building for general use or between the building and the exterior, according to claim 1, CHARACTERIZED because the inner frame (2), is formed by an upper crossbar (11) and lower (11a) and longitudinal lateral stringers (12), provided by its front and rear walls, with some laminar pieces equidistant quadrangular (13), as reinforcement means; the longitudinal stringers (12), are provided in the lower base, with a power dissipator leg (12a) against the floor surface (12b) and the area of the upper edge of the door, which allows to avoid deformation of said frame interior (2) and a window or door (19).

4. An anti-seismic system with controlled deformation in all types of pedestrian or vehicular communicational connection, vertical or horizontal, within a dwelling, either a house or building for general use or between the building and the exterior, according to claim 1, CHARACTERIZED because the energy dissipating parts or force dampers (15), can have any geometric shape, with energy dissipating qualities or force dampers.