RU59093U1 - False Ceiling Design - Google Patents

Abstract

The design of the suspended ceiling, related to the construction, in particular, of suspended ceilings, containing basically a rigid metal frame of industrial production consisting of load-bearing and intermediate rails in the form of a "tee", on which, before mounting the frame, the structural elements of figure 2 are put on, pre-trimmed along the length with corresponding vertical notches along the edges, then the slats, with structural elements put on them, are joined together in the longitudinal and transverse directions using races Assumption on the edges connecting rods special locks and are mounted on suspensions to the building structure. Further, ceiling plates are laid in the formed cells with reinforced shelves.

Description

The utility model relates to construction, in particular to suspended ceilings. Such ceilings are used for decoration of residential, office and public buildings. The use of a lightweight metal frame at its core allows us to make this ceiling versatile, both in terms of the use of materials for decorating the ceiling and in terms of configuration, color scheme and volume. The use of natural materials provides good environmental and acoustic performance of the room. The use of this design allows the assembly of frames on large areas and various configurations, and allows easy access to hidden communications located above the ceiling space, while ensuring the specified strength characteristics.

Known modular suspended ceiling containing profiled longitudinal and transverse beams, forming a closed loop cell of the supporting frame, closed on top with removable panels, resting rectilinear edges on the supporting surfaces of the beams and held by supporting elements and fasteners, consisting of a bracket and a support bar, rigidly connected with a threaded connection (certificate for utility model No. 1702 priority of 06/29/94). The disadvantage of this design is the complexity of its installation due to the large number of and various components.

A suspended ceiling is known, the longitudinal and transverse slats of the frame of which are made of two corners, previously bent from a steel sheet with the formation of simultaneously holes for the suspension and rectangular slots for connection. Corners are interconnected by spot welding in several places and fastened by squeezing the frame. Framing

It is a sheet that covers the lower shelves of the corners and rigidly fixes them together. The design of the ends of the carrier rail is made so that they can be connected in the longitudinal direction. Cross rails are made in the same way. The ends of the intermediate rails are designed so that they can be connected in the transverse direction (utility model No. 18721 with a priority date of 08/01/2000)

The disadvantage of this prototype is that it is necessary to have a certain technical base for the production of the above profiles. Known suspended ceiling company "Armstrong" (Netherlands). Its construction includes mutually perpendicular bearing and intermediate rails, suspensions, angular rails for fastening the supporting frame to the walls, and the design of the ends of the bearing and intermediate rails is made so that they can be connected in the longitudinal and transverse directions, while the bearing and intermediate rails are made in profile of the "brand" of sheet steel, which are mounted upside down - forming closed along the contour cells of the supporting frame, closed from above by ceiling panels resting directly with clay edges on the supporting surfaces of the slats (see the advertising booklet “Ceilings for every taste” of the Moscow representative office of Armstrong World Industries GmbH). The disadvantage of this design of the suspended ceiling is the lack of rigidity of the ceiling structure to create universal structures on it using various materials. The specified design of the suspended ceiling, as the closest analogue, can be adopted as a prototype.

The objective of the solution of this technical solution is to increase the rigidity of the false ceiling design in order to create on its basis the design of a universal false ceiling with the possibility of using various materials that will fit perfectly into the interiors of residential and office buildings (bars, restaurants,

rooms), give the ceiling volume and at the same time it is easy to mount it on any area.

According to the technical solution proposed in the framework of the application for a utility model, this problem is solved through the use of a structural element in the construction of a suspended ceiling, the technology of its manufacture and assembly of the ceiling frame. The manufacture of the structural element is carried out on well-known domestic or imported equipment.

The structural element, figure 2 is made of wood or its MDF substitute. Represents a calibrated (dimensional) block 1 of a rectangular (square) shape having a two-sided selection of material 5, symmetrical to the vertical axis of the bar, vertical 3 and horizontal 4 grooves in the beam, the connecting edges 6 at the ends of the structural element are cut at an angle of 45 °, the upper edges 2 (reinforced shelves).

The wall strip, figure 3 is made of wood or its MDF substitute and is processed on the machine so that the height of the not cut part 2 of the beam 1 is not less than the height of the structural element.

At the same time, two-sided sampling of the material of the structural element, symmetrical to the vertical axis of the bar, the manufacture of internal vertical and horizontal grooves, the processing of the wall strip are performed on a well-known milling machine, and the vertical notches of the mating edges of the structural element, at the ends of the workpiece at an angle of 45 °, are made on the conductor known cutting machine with any given dimensions of the structural element.

A structural element, when it is included in the known design of a suspended ceiling, increases the rigidity of the ceiling structure, provides the universality of the use of this ceiling structure in various rooms, gives the ceiling volume.

The essence of the proposed technical solution is illustrated and confirmed by the drawings: Where, in Fig. 1 - construction of a known suspended ceiling, in Fig. 2 - structural element, in Fig. 3 - wall strip, in Fig. 4 -

design of the proposed suspended ceiling. The essence of the proposed technical solution lies in the fact that the design of the suspended ceiling, containing mutually perpendicular bearing 1 and intermediate 2 rails connected in the longitudinal and transverse directions using the locks located at their ends and forming closed cells of the supporting frame closed on top by ceiling panels 3, supported by rectangular edges on the supporting surfaces of the rails, suspensions 4, angular rails 5. In contrast to the prototype, the design of the proposed suspended ceiling of FIG. .4, which additionally contains structural element 2, where the connection of the structural element with the supporting and intermediate rails of the rigid frame, which are longitudinally and transversally joined together with the locks located at their ends, is carried out along the horizontal groove of the structural element, and the vertical groove of the structural element plays the role of a guide for the vertical rack of the profiled rail of the rigid frame, while the structural element is made in such a way that when joining the rails there is a tight docking of the ends of the structural elements cut vertically at an angle of 45 °, as a result of which the cells of the supporting frame closed by the contour formed by the reinforced shelves of the structural elements are closed on top of the ceiling plates, resting rectangular edges on the supporting surfaces of the reinforced shelves. As a result of the tight joining of structural elements along their vertical cuts, which occurs as a result of the locking of the locks of the rails during their joining, there is an increase in the rigidity of the ceiling structure and, in addition, the structural element, as a result of the compression of the rails along the length of the groove, prevents deformation (bending) of the bearing and intermediate rails.

The proposed design of the suspended ceiling is mounted as follows: At the beginning, a wall strip is fastened around the perimeter of the room acting as a reinforced shelf for the ceiling plate. Then to the ceiling

suspensions are attached for mounting the mounting rails, while the adopted suspension mounting step: 600 mm along the supporting rail, 600 or 1200 mm between the bearing rails, depending on the size of the intermediate rail. Then, on the supporting rail, before it is mounted on the suspensions, structural elements are put on that are pre-cut on the jig of the cutting machine to the desired length and with corresponding vertical notches at an angle of 45 °, while making sure that the ends of the structural elements coincide with the grooves under fixing rails. Further, the carrier rails, with structural elements worn on them, are mounted on suspensions, joining them together using locks. The ends of the supporting rails, if necessary, are trimmed and laid on the wall rail. After that, the intermediate rails are suspended, with structural elements pre-worn on them, inserting end hooks into the slots on the carrier rail and locking them together with the locks. The structural element is made in such a way that when the lock clicks (when joining the rails), the structural elements cut vertically at an angle of 45 ° are tightly joined, which allows to increase the rigidity of the ceiling structure and, in addition, the structural element prevents deformation (bending) of the supporting and intermediate rails as a result of its tight compression of the rails along the length of the grooves. Ceiling plates are laid in the cells formed as a result of installation with reinforced shelves.

Along the perimeter of the room, the outer plates are cut to the desired size.

The proposed design of the suspended ceiling allows you to increase its rigidity in order to create a more universal design of the suspended ceiling with the possibility of using various materials that will fit perfectly into the interiors of residential and office premises (bars, restaurants, cabinets), gives the ceiling volume and is easily mounted on any areas, provides free access to the space above the ceiling, as well as ease of dismantling and high maintainability.

Claims (4)

1. The design of the suspended ceiling, containing mutually perpendicular bearing and intermediate rails, connected in the longitudinal and transverse directions using the locks located at their ends, form cells of the supporting frame closed along the contour, closed from the top by ceiling panels, resting rectangular edges on the supporting surfaces of the rails, suspensions, angular rails, ceiling plates, characterized in that, in order to increase the rigidity of the structure of the suspended ceiling, which additionally contains structural an element where the connection of the structural element with the supporting and intermediate rails of the rigid frame, which are joined together in the longitudinal and transverse directions by means of the locks located at their ends, is carried out along the horizontal groove of the structural element, and the vertical groove of the structural element plays the role of a guide for the upright profile the racks of the rigid frame, while the structural element is made in such a way that when joining the rails there is a dense joining of the cut ikalno at 45 ° all the structural elements, resulting in a vicious loop of the supporting frame of the cell formed by reinforced shelves structural elements, which are closed on top of ceiling tiles, square edges resting on the supporting surface reinforced shelves. 2. The design of the false ceiling according to claim 1, characterized in that it contains a wall strip. 3. The design of the suspended ceiling according to claim 1, characterized in that the ceiling plates are stacked on reinforced shelves formed by structural elements. 4. The design of the suspended ceiling according to claim 1, characterized in that the structural element prevents deformation (bending) of the bearing and intermediate rails as a result of its tight compression of the rails along the length of the grooves.