RU2694635C1 - Improved universal suspended frame ceiling and wall system of panels with flexible decorative material and method of its attachment - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: group of inventions relates to the field of equipment and finishing of buildings, in particular to the suspended ceilings and walls design. Improved universal suspended frame ceiling and wall system of panels with flexible decorative material comprises rectilinear and curved profiled longitudinal and transverse racks, forming the enclosing load-bearing frame closed on contour, on which decorative tension panels are laid. At the same time the framework of the proposed system consists of one type of universal frame composite profile consisting of a basic frame profile and a retaining front profile. Universal frame composite profiles are connected to each other by means of spring connection retainers and connecting inserts fixing connections of intersecting universal carcass composite profiles by immersion into upper mounting slots of base frame profiles of universal carcass composite profiles, fixing hooks directed to opposing sides relative to each other on mirror-arranged aspiring in opposite to each other sides walls. Device of decorative tension panels and method of fixing flexible decorative material are also described.

EFFECT: universality of assembly and installation characteristics of ceiling and wall system, rate of installation works, usability of mounted ceiling and wall system, improved aesthetic properties, as well as possibility of changing color/material of lining material of ceiling and wall system with preservation of frame and frame elements of ceiling and wall systems.

64 cl, 22 dwg

Description

Improved universal suspended frame ceiling and wall system of panels with flexible decorative material and method of its fastening.

The group of inventions relates to the field of equipment and decoration of buildings, in particular, to the design of suspended ceilings and walls.

   Suspended ceiling and wall systems, allowing you to easily penetrate to communications hiding behind their surface, are in high demand.

   Such systems allow designers and architects to create a variety of visual effects that are not available for ceiling systems, covering the entire ceiling space with one inseparable canvas.

Known suspended ceiling, containing the frame of the suspension system, formed by a group of support rails and means of their attachment to the supporting structure, and panels having elements of a detachable connection them, at least two support rails and elements of the hinge connection, at least two bearing rails (EP 0465828 E 04 B 9/00 2016-01-15).

However, in this technical solution, simplified installation is achieved by installing panels with gaps between their edges, and, in addition, access to the ceiling void space is possible only as a result of sequential displacement of the panel group.

Known suspended ceilings, in which the frame of the suspension system, formed by a group of support rails and means of their attachment to the supporting structure, as well as a panel having detachable connection elements (see, for example, RU 18721 Е 04 В 9/22 2001-07-10) .

The closest analogue is the “Universal Decorative Suspended Frame Ceiling and Wall System” containing profiled longitudinal and transverse slats that form closed supporting cells along the contour of the supporting frame (RU 2 658 927 E04B 9/06 (2006.01) 2018-06-26 ).

However, this technical solution does not provide for the use of curvilinear profiles for constructing the cells of the supporting frame, and also does not provide for the use of curvilinear profiles for the construction of frame designs of decorative panels. Also in this technical solution as a result of connecting the longitudinal and transverse rails (profiles) the shelf of one profile lies on top of the shelf of the other, which in turn contributes to the appearance of a gap in the places of their connection between the decorative panel and the downstream profile of the supporting frame.

The task to be solved by the group of inventions is the creation of a suspended ceiling and wall system with a universal way of laying and hanging ceiling panels with an improved universal decorative suspended frame ceiling system used for cladding virtually any interior space of a room or an external horizontal or vertical coating in which during operation it is necessary to provide access to various communications hiding behind the decorative coating, as well as the same lightweight method of attaching a flexible decorative material to the frame structures.

The technical result consists in the versatility of prefabricated characteristics of the ceiling system, installation speed, practicality in using the mounted ceiling and wall system, improving aesthetic properties, the ability to change the color / material of the facing material of the system while maintaining the frame-frame elements of the system, the ability to create different according to the method of retaining decorative tension panels in the cells of the system, as well as in reducing the financial costs of frame and frame balances profiles appear when installation is completed due to the separate supply of profiles and the possibility of merging sections profiles.

This technical result is achieved due to the fact that the frame of the inventive system consists of one type of a rectilinear or curved universal composite frame profile (USPP) (Fig. 1), consisting of a rectilinear or curved base frame profile (BKP), which in cross section it is a quadrilateral (a cavity of a rectangular section), in which from the endings of the side walls, along these walls, in opposite directions, walls of equal length come out having equal shelves at their ends aligned to each other, with the pair of shelves directed to each other above the quadrilateral having fixing projections directed toward the rectangle at their ends, forming the upper mounting groove of the BKP, and a pair of shelves located below the quadrangle with walls on which they are located and the lower side of the quadrilateral form the lower mounting groove of the BKP and from the rectilinear or curved retaining front profile (SFR), representing in cross section a shelf with the front side, with anti The opposite side of which, symmetrically relative to the center of the shelf, is two elastic equal flexible walls at their ends having equal semi-oval locking hooks directed in opposite directions relative to each other, while the height at which the lower edges of the semi-oval locking hooks are located relative to the opposite side of the ULP shelf fits the height of the shelves without locking projections forming the lower mounting groove of the BKP, and the distance between the outer edges of the flexible walls with the semi-oval fic The ULP trimming hooks correspond to the distance between the ends of two equal shelves of the BKP lower mounting groove directed to each other, as well as sets of spring connecting fasteners (PSF) (Fig. 2) and connecting inserts (CB) (fig. 3, 3.1) necessary for interconnecting the OPF and suspended, if necessary, to the supporting ceiling with flexible suspensions (GP) (Fig. 4) and / or suspended, if necessary , to the supporting ceiling and bearing walls with the help of rigid suspensions (LR) 17 (Fig. 17), forming rectilinear and / or curvilinear different-sized, different-figure, closed along the contour of the cell of the suspended ceiling and wall system (Fig. 1.1), as well as a set various holding inserts (HC) (Fig. 13, 13.1) and filing brackets (MK) (Fig. 14), mounting brackets (KK) (Fig. 10), fastening supports (KP) (Fig. 11), retaining brackets (CC) (Fig. 15) and flexible retaining brackets (Fig. sixteen). The BKP uniform, uniform throughout its length, allows to establish the SFM, thereby forming the UCPP, as well as the PSF, SV, HC, MK, KK, KP, GP and ZHP on any part of the OPC mounting grooves and, if necessary, displace them in any direction along their length .

The suspended ceiling and wall systems in the closed-contour cells formed are laid on top of or suspended from below frame structures (RK) (Fig. 6.4, 6.5, 7.2), which can be made of straight or bent self-tightening tension profile (RNP) and auxiliary light profile ( GP). The profiles forming the perimeter of the Republic of Kazakhstan are interconnected using the corners (Fig. 6, 6.1) and brackets (Fig. 7, 7.1) and are covered from the front side with a flexible decorative material (GDM), forming decorative tension panels (DNP) of different sizes and forms.

The advanced universal suspended frame ceiling and wall system of panels with flexible decorative material consists of: 1 - universal frame composite profile, 1a - basic frame profile, 1b-retaining front profile, 2 - spring connecting retainer for longitudinal connection, 2a - universal spring connecting retainer, 2b - composite spring connecting retainer, 3 - connecting insert G - shaped, 3a - connecting insert T - shaped, 3b - connecting insert Y - shaped th, 3b - connecting insert X - shaped, 3g - connecting insert five-pointed, 3d - connecting insert set, 4 - flexible suspension, 4a - flexible rod with a mounted part, 4b - holding block, 5 - self-tightening tensioning profile, 5a - basic frame profile, 5b - reinforced base frame profile, 5c - tension frame profile, 5g - auxiliary lightweight profile, 6 - straight angle with grooves for the inner corner, 6- straight angle with grooves for the outer corner, 6b - universal corner with grooves, 6b hollow corner with grooves, 7 - with dynential bracket T - shaped, 7a - connecting bracket X - shaped, 7b - universal connecting bracket, 8 - C - shaped reinforcing profile, 8a - O - shaped reinforcing profile, 8b - P - shaped reinforcing profile, 8c - E - shaped reinforcing profile, 8g - N - shaped reinforcing profile, 8d - B - shaped reinforcing profile, 9 - flexible decorative material, 10 - mounting profile, 11 - mounting bracket, 11a - mounting support, 12 - lighting composite profile, 12a - retaining lighting profile , 12b - sveorass a casing, 12b - decorative cover, 13 - retaining insert G - shaped, 13a - retaining insert T - shaped, 13b - retaining insert Y - shaped, 13b - retaining insert X - shaped, 13g - retaining insert five-pointed, 13e - retaining insert round shape, 13e - square-shaped retaining insert, 13zh - star-shaped holding insert, 14 - double pair magnetic bracket, 14a - single magnetic bracket, 15 - holding bracket with magnet, 15a - holding bracket with metal strip, 16 - single flexible hered bracket 16a - single flexible curved retaining bracket 16b - Pair flexible retaining bracket 17 - rigid hanger 18 - frame construction, 18a - tension decorative panel.

Auxiliary designations, items and parts used in the description of the group of inventions: 19 - supporting wall, 20 - rectangular cavity (quadrilateral), 21 - upper mounting groove of BKP, 21a - lower mounting groove of BKP, 22 - shelf with locking lug, 23 - locking protrusion, 23a — locking latch, 24 — shelf without locking lug, 25 — front side of the shelf, 25a — opposite side of the shelf, 26 — flexible wall with semi-oval locking hook, 27 — semi-oval locking hook, 28 — PSF wall, 29 — locking hook PSF, 30 - fi PSF axle shelf, 31 - lintel, 32 - shelf with sphere-like niche, 33 - docking ball, 34 - shelf holding docking ball, 34a - protrusion of docking ball, 35 - reinforced shelf with locking hooks, 35a - mounting ear, 36 - flexible tape , 37 is a multistage cone-shaped working surface, 37a is a fixing protrusion of a multistage cone-shaped working surface, 38 is a reinforcing guide border, 39 is an adjusting lever with a fixing hook, 39a is a fixing hook of an adjusting lever, 40 is an adjusting box, 41 - connecting wall of the retaining block, 42 - guide groove of the base part, 43 - docking groove, 43a - multifunctional groove, 44 - prefixing groove, 45 - C - shaped wall, 45a - contour wall, 46 - locking projections C - shaped wall , 47 - tensioning groove, 48 - supporting shelf, 49 - pressure roller, 50 - U - shaped pressure chute, 51 - locking hooks of U - shaped pressure chute, 52 - corner leg 52a - bracket leg, 53 - pinch groove, 54 - hole with internal thread, 55 - threaded element with external threads 56, washer, 57 is a cylinder, 57a is a concave wall of the leg, 58 is fixing cone-shaped depressions and protrusions of the cylinder, 58a is fixing cone-shaped depressions and protrusions of the concave wall of the leg, 59 is a hole in the cylinder, 60 is the axis of the leg, 61 is the leg of the angle with a hole, 61a - bracket leg with a hole, 62 - angle bracket leg with axis, 62a - bracket leg with axle, 63 - mounting surface for LED tape, 64 - elastic retaining wall with semi-oval locking groove, 65 - semi-oval locking groove, 66 - LED strip, 67 - opposite side of the shelf of the retaining light profile, 68 - light transmission shelf, 69 - light transmission wall, 70 - back side of the light transmission shelf, 71 - retaining wall with rounded edges, 72 - retaining shelf, 72a - long retaining shelf, 73 - wider retaining shelf, 74 - a shelf with a magnet, 75 is a magnet, 76 is a metal strip, 77 is the inner side of the C-shaped wall, 78 is the outer side of the U-shaped pressure chute, 79 is a curved supporting shelf, 80 is an elastic wall of the bracket, 81 is a retaining wall with a hole , 82 - broad single wall with a hole, 83 - flexible holding foot, 84 - submersible profile with mounted shelf, 84a - submersible profile with holding shelf, 85 - submersible profile, 86 - insulation material, 86a - noise absorbing material, 87 - communication, 88 - supporting ceiling overlap, 89 - load-bearing wall, 90 - electrical cable, 91 - lighting equipment, 92 - rectangular mounting frame, 92a - circular mounting frame, 93 - bolted connection with decorative visible part, 94 - fastening element (self-tapping screw, bolted connection, shut up Cap, dowel-nail, screw).

FIG. 1 in cross section, a universal frame composite profile 1 and its profiles are shown: basic frame profile 1a, holding the front profile 1b;

in fig. 1.1 shows examples of the construction of the frame of the ceiling and wall system from a rectilinear or curved universal framework composite profile 1 and a rectilinear or curved basic framework profile 1a;

in fig. 1.2 is a cross-sectional view of an example of constructing a skeleton of a ceiling system in a cell of which a decorative tension panel 18a is installed, supported to prevent falling out of the cell by retaining front profiles 1b installed in the base frame profile 1a;

in fig. 1.3 shows an example of the manufacture of the base frame profile 1a and the retaining front profile 1b by rolling / bending from a metal strip;

in fig. 2 shows in cross section and in side view a spring connecting clamp for a longitudinal connection 2, a universal spring connecting clamp 2a, a composite spring connecting clamp 2b, their working elements, and also examples of their fixation with the base frame profile 1a are shown;

in fig. 3 shows cross sections of the connecting inserts 3-3d, their working elements, as well as an example of their installation in the base frame profile 1a;

in fig. 3.1 in the top view are shown the forms and working elements of the connecting inserts 3-3 e;

in fig. 3.2 shows an example of building a ceiling and wall system with installed connecting inserts;

in fig. 3.3 a cross-sectional view shows an example of constructing a skeleton of a ceiling system in the cell of which a decorative tension panel 18a is installed, supported to prevent falling out of the cell with connecting inserts 3-3e installed in the base frame profile 1a;

in fig. 3.4 in the side view and above shows an example of the connection of the base frame profiles 1a with the help of the connecting insert 3a;

in fig. 4 shows in cross-section a flexible suspension 4 and its parts forming: a flexible rod with a mounted part 4a, a holding block 4b;

in fig. Fig. 4.1 shows in cross section and in the side view the options for the production of flexible rods with the mounted part 4a, their working elements, as well as examples of their fixation to the supporting ceiling;

in fig. 4.2 shows a cross section, side view and top holding unit 4b, its working elements;

in fig. Figure 4.3 shows the sequence of fixing the retaining block 4b to the base frame profile 1a;

in fig. 5 shows in cross-section a self-tightening tensioning profile 5 and its profiles: base frame profile 5a, reinforced base frame profile 5b, tension frame profile 5c;

in fig. 5.1 shows in cross-section a basic frame profile 5a, a reinforced basic frame profile 5b, a tension frame profile 5c, an auxiliary lightweight profile 5g, as well as their working elements and features;

in fig. 5.2 in cross section shows the production version of the reinforced base frame profile 5b without a docking groove, as well as its working elements and features;

in fig. 5.3 a cross-section shows the production options for the base frame profile 5a and the reinforced base frame profile 5b with contour walls 45a;

in fig. 5.4 shows a cross sectional view of the production version of the tension frame profile 5c with the combined shelves 24 of the multifunctional groove 43a;

in fig. 5.5 The cross-section shows the production options for the tension frame profile 5c;

in fig. 6, in the side view and in cross-section, a straight angle with the slots for the inner corner 6 and a straight angle with the slots for the outer angle 6a are shown, as well as their working elements;

in fig. 6.1 in the side view and in cross-section a universal corner with grooves 6b is shown, as well as its working elements and features;

in fig. 6.2 The cross-section shows the angles 6-6b fixed by a self-tightening tensioning profile 5;

in fig. 6.3 side view shows a hollow area with grooves 6c, as well as an example of its use with an auxiliary lightweight profile 5g;

in fig. 6.4 in the longitudinal section in the top view shows examples of the use of angles 6-6b, as well as an example of constructing a frame structure 18 using straight or curved self-tightening tension profiles 5;

in fig. 6.5 The side view shows examples of the construction of the frame structure 18;

in fig. 7 shows the connecting bracket T - shaped 7, the connecting bracket X - shaped 7a, as well as their working elements and features;

in fig. 7.1. In the side view and in cross-section, a universal connecting bracket 7b is shown, its working elements and features, as well as an example of its fixation in the self-tightening tensioning profile 5 and the auxiliary lightweight profile 5g;

in fig. 7.2 in a longitudinal section in the top view shows examples of the use of brackets 7-7b, as well as an example of constructing a frame structure 18;

in fig. 8 shows in cross-section reinforcing profiles 8-8 d, as well as an example of the use of an N-shaped reinforcing profile 8g with a universal framed composite profile 1 and a self-tightening tension profile 5;

in fig. 9 shows in cross-section an assembly profile 10 and an example of its use for fixing a flexible decorative material 9 to a frame structure 18 made of an auxiliary lightweight profile 5g;

in fig. 10 shows the mounting bracket 11 and an example of its use;

in fig. 11 shows a mounting stand 11a and an example of its use;

in fig. 12 shows the lighting composite profile 12, its constituent parts, their working elements, features, as well as an example of the arrangement of the electrical cable 90 in the base frame profile 1a;

in fig. 13 shows in cross-section retaining inserts 13-13g, their working elements, as well as an example of their installation in the base frame profile 1a;

in fig. 13.1. In the top view, the forms and working elements of the retaining inserts 13-13g are shown;

in fig. 13.2 shows an example of the construction of the ceiling and wall systems with retaining inserts installed;

in fig. 13.3 is a cross-sectional view of an example of constructing a skeleton of a ceiling system in a cell of which a decorative tension panel 18a is installed, supported to prevent the retaining inserts 13-13g from being installed in the base frame profile 1a;

in fig. 14 shows the magnetic brackets 14, 14a, as well as their working elements;

in fig. 15 shows the holding brackets 15, 15a as well as their working elements;

in fig. 15.1 shows in cross-section an example of installing a decorative tension panel 18a in a cell of a ceiling system using magnetic brackets 14, 14a installed in a base frame profile 1a and holding brackets 15, 15a installed in a decorative tension panel 18a;

in fig. 15.2 shows in cross-section an example of installing a decorative tension panel 18a in a cell of a ceiling system using magnetic brackets 14, 14a installed in a base frame profile 1a and holding brackets 15, 15a installed in a decorative tension panel 18a, followed by fixing to the base frame profile 1a front profile 1b and lighting composite profile 12;

in fig. 16 shows flexible holding brackets 16-16b, as well as their working elements;

in fig. 16.1 is a cross-sectional view showing an example of installing a decorative tension panel 18a in a cell of a ceiling system using single flexible retaining brackets 16 installed in a decorative tension panel 18a;

in fig. 16.2 shows in cross section an example of installation of a decorative tension panel 18a in a cell of a ceiling system using single flexible retaining brackets 16 installed in a decorative tension panel 18a, followed by fixing a retaining front profile 1b and a lighting composite profile 12 to a base frame profile 1a;

in fig. 16.3 shows in cross section an example of installation of decorative tension panels 18a in the cells of the ceiling system using curved single flexible retaining brackets 16a installed in decorative tension panels 18a covering the framework of the ceiling system with their area;

in fig. 16.4 shows an example of installation of independent tension decorative decorative panels 18a mounted to the carrying ceiling overlap without cross-sectioning the ceiling system with retaining front profiles 1b installed in the places of their contact and the lighting composite profile 12 using segments of the base frame 1a and paired flexible holding brackets 16b;

in fig. 16.5 shows an example of installation of independent tension decorative decorative panels 18a mounted to the supporting ceiling overlapping without cross-sectioning the framework of the ceiling system;

in fig. 17 shows a rigid suspension 17, as well as its components and work items;

in fig. 17.1 shows an example of fixing the base frame profile 1a to the supporting ceiling and the supporting wall with a rigid suspension 17;

in fig. 17.2 shows in cross section an example of installation of decorative tension panels 18a in the cells of the ceiling and wall systems using magnetic brackets 14, 14a installed in the base frame profile 1a and retaining brackets 15, 15a installed in the decorative tension panel 18a, followed by fixation to the base frame profile 1a of the retaining face profile 1b and the lighting composite profile 12;

in fig. 18 shows the sequence of tension of a flexible decorative material on a frame structure made of a base frame profile 5a and a tension frame profile 5c, as a result of which a decorative tension panel 18a is formed;

in fig. 19 shows an example of the use of heat insulation material 86 / noise absorbing material 86a when building a wall and ceiling system;

in fig. 20 shows a top view of the mounting frames 92, 92a, as well as a cross-sectional example of fixing the mounting frame 92, 92a to the decorative tension panel 18a using the mounting profile 10;

in fig. 20.1 shows in cross-section an example of fixing a mounting frame made of an auxiliary lightweight profile 5g to a decorative tension panel 18a using the mounting profile 10;

in fig. 21 shows an example of highlighting the ceiling and wall systems from the side of the surface covered by it;

in fig. 21.1 shows examples of the installation of various lighting equipment in the ceiling system and / or with it;

in fig. 22 shows an example of the construction of a frame structure 18, which is installed in rooms in which near the load-bearing walls to which the panel must adhere to communications 87 (for example, water / gas / heat supply).

Installation method of an improved universal suspended frame ceiling and wall system of panels with flexible decorative material:

The frame of the inventive system consists of one type of straight or curved universal frame composite profile 1 (USPP 1) (Fig. 1), consisting of a straight or curved base frame profile (BKP 1a) made of solid material, which in cross section is quadrangle 20 (rectangular cavity), in which elastic load-bearing walls 19 of equal length, having equal shelves n at their terminations, run out in opposite directions along these walls, in opposite directions A pair of shelves 22 located above the quadrangle are directed toward each other and at their ends have locking protrusions 23 directed toward the rectangle 20, thus forming an upper mounting groove 21 of the BKP 1a, and a pair of shelves below the quadrilateral 20 without locking lobes 24 with the walls on which they are located and the lower side of the quadrilateral 20 form the lower mounting groove 21a of the BKP 1a and from the rectilinear or bent retaining front profile (LLP) 1b made of solid material a, which is a shelf in cross section with a front side 25, on the opposite side 25a of which, symmetrically with respect to the center of the shelf, there are two equal in height elastic flexible walls 26 having at their ends equal semi-oval locking hooks 27 directed opposite to each other , while the height at which the lower edges of the semi-oval locking hooks 27 are located relative to the opposite side of the shelf 25a of the ULP 1b corresponds to the height of the shelves without locking protrusions 24 forming BKP 1a has a lower mounting groove 21a, and the distance between the outer edges of the flexible walls with semi-oval locking hooks 26 ULP 1b corresponds to the distance between the ends of two equal shelves without locking lugs 24 of the BKP 1a facing each other (Fig. 1), and also sets of spring connecting clamps (PSF) 2-2b (figure 2) and connecting inserts (CB) 3-3d (figure 3, 3.1) necessary for the connection between the BKP 1a and suspended, if necessary, to the bearing ceiling with using flexible suspensions (GP) (f ig. 4) and / or suspended, if necessary, to the supporting ceiling and bearing walls with the help of rigid suspensions (LR) 17 (Fig. 17), forming rectilinear and / or curvilinear different-sized, different-figure, closed along the contour of the cell of the suspended ceiling and wall system (Fig. 1.1), as well as a set of various retaining inserts (HC) 13-13zh (Fig. 13, 13.1) and magnetic brackets (MK) 14, 14a (Fig. 14), fastening brackets (KK) 11 (Fig. 10 ), mounting supports (KP) 11a (Fig. 11). The BKP 1a, uniform in its entire length, allows the BKP 1a of the ULP 1b to be installed into the lower mounting groove 21a by pressing in the flexible walls with semi-oval locking hooks 26 of the ULP 1b, thereby forming the UKSP 1 and CB 3-3d, HC 13-13g, and in the upper mounting groove 21 of the BKP 1a PSF 2-2b, MK 14,14a, KK 11, KP 11a, GP 4 and GF 17 on any part of the BKP 1a and, if necessary, displace them in any direction along the length of the mounting grooves 21, 21a of the BKP 1a

   The connection of the ULP 1b with the BKP 1a takes place by pressing the semi-oval locking hooks 27 of the ULP 1b into the lower mounting grooves 21a in a fixed position due to the elastic properties of flexible walls with semi-oval locking hooks 26 ULP 1b taking their initial position after hooking semi-oval locking hooks 27 ULP 1b over the shelves 24 OPF 1

The formed cells of a suspended ceiling system formed along a contour are laid on top and / or suspended from below, or installed on the side for a hanging wall system, rectilinear and curvilinear frame structures (RC) 18 (Fig. 6.4, 6.5, 7.2), which can be made of rectilinear or curved frame profiles: self-tightening tension profile (SNP) 5 and auxiliary lightweight profile (GP) 5g. The profiles forming the perimeter of the RK 18 are interconnected using angles 6-6v (Fig. 6, 6.1) and brackets 7-7b (Fig. 7, 7.1) and are covered on the front side with a flexible decorative material (GDM) 9, forming straight lines and curvilinear decorative tension panels (DNP) 18a of various sizes and shapes, while keeping DNP 18a in the system cells closed along the contour is carried out by supporting DNP 18 on shelves ULP 1b and / or CB 3-3d and / or HC 13-13zh and / or OSB 12 preventing the loss of DNP 18a from cells and / or with the help of retaining brackets (CC) 15-15a (Fig. 15 ) and / or flexible retaining brackets 16-16a (Fig. 16) installed in multifunctional grooves 43a SNP 5 along the perimeter of DNP 18a for the ceiling system (Fig. 1.2, 3.3, 13.3, 15.1, 15.2, 16.1, 16.2, 16.3), and also with the help of retaining brackets (CC) 15-15a (Fig. 15) with the subsequent framing of the perimeters of the cells of the frame of the system of ULP 1b and / or CB 3-3g and / or HC 13-13zh and / or OSB 12 for the wall system (Fig. 17.2).

 In addition, DNP 18a can be hung to the supporting ceiling 88 without building cells of the suspended ceiling system closed along the contour using GP 4 (Fig. 16.4, 16.5).

The declared system is a kind of constructor allowing to create different ceiling systems and a wall system from one set of elements, and also, if necessary, to combine them during installation in the same room. The universality of the declared ceiling and wall systems consists in the ability to create rectilinear and curvilinear closed-loop cell systems of various sizes and shapes, based on the actual size of the room and the customer’s wishes of the system, using the DCSA 1 and / or BKP 1a for mounting around the perimeter of the suspended ceiling and wall system and construction of the ceiling and wall system cells, in the possibility of a different method of retention in the cells of the DNP 18a system, in the possibility to install the ALP 1b, PSF 2-2b, CB 3-3g, GP 4, ЖП 1 7, KK 11, KP 11a, HC 13-13zh, MK 14, 14a in any part of the mounting grooves 21, 21a of the BKP 1a and, if necessary, displace them in any direction along their length, as well as to reduce the financial costs of frame and frame balances profiles appearing after completion of installation works due to the separate delivery of BKP 1a, SFM 1b, PDU 5a, UBP 5b and URP 5c and the possibility of splicing pieces of BKP 1a, ULP 1b during the formation of DCSP 1, and UBhP 5b using reinforcing section 8.

Ways to install an improved universal decorative hanging frame ceiling and wall systems:

When building a ceiling system with laying decorative stretch panels 18a, straight or bent USPSP 1 (BKP 1a and ULP 1b are pre-interconnected) are mounted to the cells of the ceiling system from above, around the perimeter of the room at a certain height to the supporting walls using fixing brackets (QC) 11 and / or mounting supports (CP) 11a, and depending on the material from which the supporting walls 89 of the room in which the ceiling system is installed, are made, mounting to the wall of KK 11 and UKSP 1 is effected, for example, using a crepe zhnyh elements 94 (dowel-nails, screws, screws, etc.). Next, segments of the BKP 1a of the required size at the intersections are connected to UKSP 1 and / or BKP 1a by means of universal spring connecting clamps (universal PSF) 2a and / or composite spring connecting clamps (composite PSF) 2b by pressing their fixing hooks 29 into the upper mounting grooves 21 of intersecting BKP 1a and / or with BKP 1a with the help of connecting inserts (CB) 3-3e by pressing their semi-oval locking hooks 27 into lower mounting grooves 21a of intersecting BCP 1a. If it is necessary to suspend the BKP 1a to the supporting ceiling 88, the GP 4 is fixed by the mounted part of the reinforced shelf with locking hooks 35 or the mounting tab 35a of the flexible rod with the mounted part 4a to the supporting ceiling 88, and the mounted part of the reinforced shelf with locking hooks 35 of the holding block 4b to the BKP 1a, by immersing the reinforced shelf with locking hooks 35 into the upper mounting slots 21 of the BKP 1a, and / or the LC 17 fixed by the mounted shelf of the submersible profile with the mounted shelf 84 to the supporting ceiling overlap 88, and an extended holding shelf of the submersible profile with a holding shelf 84a to the upper mounting groove 21 of the BKP 1a. Next, the free parts of the BCP 1a intersecting each other in the lower mounting grooves 21a of the BKP 1a by means of inserting are installed the segments of the specified length of the ULP 1b and / or OSP 12 thus forming the niches of the ceiling system cells, while the DNP 18a is pushed up from above into the niches of the ceiling system cells at an angle through the suspended ceiling cell prepared for its laying, where it is subsequently placed in it and held in the cell by supporting it on the shelves of the ULP 1b and / or CB 3-3d and / or OSB 12 preventing the NPT 18a from falling out of the cells.

The second variant of laying the DNP 18a into the cells of the ceiling system consists in the sequential installation of UKSP 1, OPF 1a and DNP 18a, when on free sides of the perimeter DNP 18a supported at least one of their sides on the shelf of the ULP 1b and / or CB 3-3d and / or OSB 12 mounted in the BKP 1a are installed by USPP 1, BKP 1a with CB 3-3g and / or OSB 12, thereby forming cells of the ceiling system (Fig. 1.2, 3.3, 13.3).

When building a ceiling system with hanging decorative stretch panels 18a, straight or bent USPP 1 (OPF 1a and ULP 1b are pre-connected to each other) or rectilinear or bent OPF 1a are mounted in the cells of the ceiling system from the bottom, perimeter of the room at a certain height mounting brackets (KK) 11 and / or mounting pegs (KP) 11a, if subsequently to the BKP 1a attached to the supporting walls 89 will be attached to the ULP 1b and / or HC 13-13zh and / or OSB 12, and the BKP 1a without KK and / or KP 11a if the BKP 1a is not The bottom has to be closed with a ULP 1b and / or HC 13-13zh and / or GSP 12. Depending on the material from which the supporting walls 89 are made of the room in which the ceiling system will be installed, mounting to the wall QC 11 and / or BKP 1a is carried out, for example, using fasteners 94 (dowel-nails, screws, screws, etc.). Further, the BKP 1a segments of the required size at the intersections are connected to the BKP 1a with the help of universal PSF 2a and / or composite PSF 2b by pressing in their fixing hooks 29 into the upper mounting grooves 21 of intersecting BCP 1a. If it is necessary to suspend the BKP 1a to the supporting ceiling 88, GP 4 is used, fixed by the mounted part of the reinforced flange with locking hooks 35 or by the mounting tab 35a of the flexible rod with the mounted portion 4a to the supporting ceiling 88, and by the mounted part of the reinforced shelves with locking hooks 35 of the holding block 4b to the BKP 1a, by immersing the reinforced shelf with locking hooks 35 into the upper mounting slots 21 of the BKP 1a, and / or the LC 17, fixed by the mounted shelf of the submersible profile with the mounted shelf 84 to the supporting ceiling full-time overlap 88, and an extended holding shelf of the submersible profile with a holding shelf 84a to the upper mounting groove 21 of the BKP 1a. Further, along the perimeter of the ceiling system cells, magnetic brackets MK 14, 14a are installed in the upper mounting grooves 21 of the BKP 1a, which hold the DNP 18a with the perimeter mounted in the multifunctional grooves 43a of the Criminal Code 15, 15a, suspended in the cells of the ceiling system from below, resulting in DNP 18a held in the cells due to the magnetic properties of interacting with each other MK 14, 14a and UK 15, 15a that prevent the DNP 18a from falling out of the cells, or DNP 18a with the single flexible restraints installed along their perimeter in the multifunctional grooves 43a matte (OGUK) 16, suspended in the cells of the ceiling system below, resulting in DNP 18a held in the cells due to the engagement of the flexible holding pads 83 for OPF 1a from the upper mounting groove 21, preventing the loss of DNP 18a from the cells, or after immersing DNP18a in Cells of the ceiling system from the bottom along the perimeter of the cells of the ceiling system into the lower mounting grooves 21a of the BKP 1a are installed the segments of the required length of the ULP 1b and / or OSP 12 by successively pressing their semi-oval locking hooks 27 into the lower mounting grooves 2 1a BKP 1a and / or HC 13-13zh by their sequential installation into the lower mounting slots 21a of the BKP 1a after hanging DNP 18a in the bottom cells, as a result of DNP 18a, submerged into the cells of the bottom ceiling system are supported on the shelves of the LSA 1b and / or HC 13- 13g and / or PCB 12 preventing the loss of DNP 18a from the cells (FIG. 15.1, 15.2, 16.1, 16.2).

When building a ceiling system with fixing DNP 18a to the cells of the ceiling system from the bottom of the BKP 1a covering its area, the perimeters of the RC 18 DNP 18a are made larger in proportion in all directions than the dimensions of the cells prepared for their installation, while fixing the DNP 18a to the BKP 1a forming cells the ceiling system is carried out with the help of DNP 18a, fixed in the multifunctional grooves 43a, of curved single flexible holding brackets (IOGUK) 16a, which are attached by flexible holding legs 83 to OPF 1a with with the corners of the upper mounting groove 21 (Fig. 16.3).

OGUK 16 and IOGU 16a (Fig. 16) in cross section are flexible retaining tab 83 having a retaining wall at its base with rounded edges 71 on which the broadened retaining shelf 73 is located, and the broadened retaining shelf 73 OGUK 16, IOGUK 16a is equal the distance between the lower shelves 24 and the lower points of the locking protrusions 23 of the upper shelves 22 IUU 5v. OGUK 16, IOGUK 16a is inserted by a wider retaining shelf 73 into the multifunctional groove 43a IWP 5b, where it is rotated 90 degrees around the figuratively drawn axis of the retaining wall with rounded faces OGUK 16, IOGUK 16a (Fig. 16.1, 16.3). OGUK 16 from IOGUK 16a differs in the shape of the holding foot 83.

When building a ceiling system from independent decorative decorative tension panels 18a, they are successively fixed to the supporting ceiling 88 by means of GP 4 fixed by the mounted part 35, 35a to the supporting ceiling 88, and by the retaining block 4b to IWP 5c DNP 18a by immersion reinforced shelves with locking hooks 35 RUP 5c into the multifunctional groove 43a NPD 5c, resulting in locking hooks 23a of reinforced shelves with locking hooks 35 of the holding unit 4b GP 4 and locking tabs 23 shelves with locking with the protrusions 22 of the multifunctional groove 43a NPP 5c engage with each other and are held in a fixed position due to the elastic properties of the reinforced shelf with locking hooks 35 GP 4 and the shelves with locking tabs 22 of the multifunction groove 43a NPP 5c, and the retaining block 4b before diving into the multifunction groove 43a NPP 5b rotates 90 degrees around the axis 4 figuratively drawn along the height of the axle 4; e, while the reinforced shelf with locking hooks 35 is located across the multifunctional groove 43a IUW 5c, while the gaps between DNP 18a, if necessary, are closed by the LAA 1b and / or OSB 12 with fixed on their opposite side 25a using a segment of the PDU 1a paired flexible retaining brackets (PGUK) 16b (FIG. 16), which engage with their flexible holding legs 83 after insertion into the gaps between adjacent DNP 18a and DNP 18a from the side of the carrying flow ceiling 88 (FIG. 16.4, 16.5).

PGUK 16b in cross section are two interconnected flexible holding pads 83 directed in opposite directions to each other, having at one intersection a retaining wall with rounded edges 71 at the base of which there is a broadened retaining flange 73, and the broadened thickness retaining shelf PGUK 16b is equal to the distance from the quadrilateral 20 to the lower points of the locking protrusions 23 of the upper mounting groove 21 of the BKP 1a. PGUK 16b is inserted by an extended holding shelf 73 into the upper mounting groove 21 of the BKP 1a, where it is rotated by 90 degrees around the axis of the holding wall with the rounded sides of the PGUK 16b.

When building a wall system around the perimeter of the room at a certain distance from the closure of the supporting wall 89 to the walls / floor / ceiling using mounting brackets (QC) 11 and / or mounting supports (KP) 11a, straight bent UKSP 1 (BKP 1a and ULP 1b are installed) interconnected) or rectilinear or curved BKP 1a. Depending on the material from which the walls / floor / ceiling of the room are made in which the wall system will be installed, the installation of KK 11 and BKP 1a is carried out, for example, using fasteners 94 (dowel-nails, screws, screws, etc.). Further, the BKP 1a segments of the required size at the intersections are connected to the BKP 1a with the help of universal PSF 2a and / or composite PSF 2b by pressing in their fixing hooks 29 into the upper mounting grooves 21 of intersecting BCP 1a. If necessary, the mounting of the BKP 1a to the lockable supporting wall 89 is used by the HP 17 fixed by the mounted submersible profile shelf with the mounted shelf 84 to the closed supporting wall 89, and by the broadened submersible profile holding shelf 84a to the upper mounting slot 21 of the BKP 1a. Further, along the perimeter of the wall system cells, magnetic brackets MK 14, 14a are mounted in the upper mounting grooves 21 of the BKP 1a, which hold DNP 18a with CC 15, 15a installed along its perimeter, immersed in the wall system cells from the side, as a result of which the DNP 18a are held in the cells due to magnetic properties of interacting with each other MK 14, 14a and UK 15, 15a preventing the loss of DNP 18a from the cells. After immersing DNP18a into the cells of the wall system along the perimeter of the cells of the wall system into the lower mounting grooves 21a of the BKP 1a, the required lengths of ULP 1b and / or OSB 12 and / or CB 3-3d are installed by successively pressing their semi-oval locking hooks 27 into the lower mounting grooves 21a BKP 1a (fig. 17.2).

   When building a wall system in exchange for MK 14, 14a and UK 15, 15a, any other restraints can be used that prevent the placement of DNP 18a into the interior of the wall system cells beyond the required level.

The longitudinal splicing of the BKP 1a with each other is carried out by means of a spring connecting clamp for a longitudinal connection (PSF) 2 (Fig. 2), immersed in the upper mounting grooves 21 of the BKP 1a, having on the sides of the mirrors that are opposite in relation to each other locking the shelves 30 and locking hooks 29 directed in one direction with respect to each other and opposite to the mirror wall, while the shelves and hooks of the PSF 2 create a holding groove of the PSF 2 with the honey. F for the longitudinal connection 2 to the upper mounting slots 21 of the BKP 1a, fixing the fixing hooks 29 of the PSF 2 for the shelves with locking lugs 22 of the upper mounting groove 21 of the BKP 1a from the bottom occurs by engagement with each other, and fixing shelves 30 of the PSF 2, while resting against shelves with locking protrusions 22 of the upper mounting groove 21 of the BKP 1a from above prevent the immersion of the locking hooks 29 into the upper mounting groove of 21 of the BKP 1a more than the required level, thereby maintaining in a fixed position the joined longitudinally CP 1a through the resilient properties of the walls 28 PSF 2 seeking in various directions with respect to each other.

The splicing of the BKP 1a intersecting at an angle between them is carried out with the help of a universal spring connecting clamp (universal PSF) 2a (Fig. 2). Universal PSF 2a consists of two identical parts interconnected by a jumper 31, bent at the desired angle. Each of the parts of the universal PSF 2a has walls 28 on the mirrored, tending to opposite sides of each other and fixing hooks 29 directed in one direction with respect to each other and opposite to the wall that is mirrored, while the shelves and hooks of the PSF 2a create a holding groove of the PSF 2a to the honey. When the PSF 2a is immersed in the upper mounting grooves 21 of the BKP 1a, the fixing hooks 29 of the PSF 2a are fixed to the shelves with locking lugs 22 of the upper mounting groove 21 of the BKP 1a from below by engagement with each other, and the fixing shelves 30 of the PSF 2a are resting against the shelves with the locking protrusions 22 of the upper mounting groove 21 of the BKP 1a from above prevent the immersion of the locking hooks 29 into the upper mounting groove of the 21 of the BKP 1a more than the required level, due to this there is a retention in the fixed position of the blended at the angle of the BKP 1a Godard springy properties walls 28 PSF 2a seeking in various directions with respect to each other. The PSF 2a bends at any angle along the lintel 31, thus adjusting to the angle of intersection of the BKP 1a with each other.

The splicing of the BKP 1a intersecting at an angle between them can be carried out using a composite spring fastener (composite PSF) 2b (Fig. 2). The composite PSF 2b differs from the PSF 2 by the presence at one end of the docking ball 33 connected to the walls 28 of the PSF by means of a shelf holding the docking ball 34, with the docking ball 33 having at least two projections 34a on its surface. On the other end of the PSF, there are two elastic shelves with spherical niches 32, and the distance between the lower points of the sphere-like niches corresponds to the diameter of the retaining docking ball 33, and the protrusions of the docking ball 34a are located on the docking ball 33 so that when two composite PSFs 2b are joined together did not rotate relative to each other, ensuring the construction of even walls of the cells of the ceiling system at which the BKP 1a will always be turned downwards with the lower mounting slots 21a. The connection of two PSFs 2b between them is ensured by pressing in the docking ball 33 of one PSF 2b between the shelves with spherical niches 32 of the second PSF 2b. A pair of composite PSF 2b provide a connection intersecting each other BKP 1a.

In addition, the BKP 1a is spliced together by means of the LAW 1b, OSB 12 by pressing their semi-oval locking hooks 27 into the lower mounting grooves 21a of the BKP 1a. When the ULP 1b, OSB 12 is immersed in the lower mounting slots of the BKP 1a, the semi-oval locking hooks 27 of the ULP 1b, OSP 12 are fixed to the shelves 24 of the lower mounting groove 21a semi-oval locking lugs 26 ULP 1b, OSB 12 taking its initial position after engaging semi-oval locking hooks 27 ULP 1b, OSP 12 for the shelves 24 BKP 1.

In addition, the interfacing of the BKP 1a between themselves can be carried out using a reinforcing profile 8 immersed into the cavity of a rectangular section 20 of the BKP 1a.

CB 3-3d (fig. 3, 3.1, 3.2, 3.4) is in cross-section a shelf with a front side 25, on the opposite side 25a of which, symmetrically with respect to the center of the shelf, there are two elastic flexible walls 26 of the same length having at their endings equal semi-oval locking hooks 27 directed in opposite directions relative to each other, while the height on which the lower edges of the semi-oval locking hooks 27 are located relative to the opposite side of the shelf 25a CB 3-3d corresponds to the height of the shelves 24 forming the bottom e mounting grooves 21a OPF 1a, and the distance between the outer faces of the flexible walls 26 CB 3-3d corresponds to the distance between the ends of two equal flanges 24 directed towards each other of the lower mounting groove 21a OPF 1a. CB 3 has the shape of the letter “G” and serves for the corner joint of two BKP 1a intersecting at a right angle. CB 3a has the shape of the letter "T" and serves to connect intersecting at right angles BKP 1a, in which one BKP 1a rests at a right angle into the second BKP 1a. CB 3b has the shape of the letter "Y" and serves to connect intersecting at an angle of 121 degrees BKP 1a. CB 3b has the shape of the letter "X" and serves to connect intersecting at a right angle BKP 1a, in which two BKP 1a abut at a right angle at one point on both sides of the third BKP 1a. The CB 3g has the shape of a five-pointed star and serves to connect the BKP 1a intersecting at an angle of 72 degrees. CB 3D is a certain number of pieces of SFM 1b, on which one side there are no elastic flexible walls with semi-oval locking hooks 26, the shelf is rounded and there is a through hole in the place of the missing fixing hooks 26. CB 3D are interconnected, for example, a bolt joint with the decorative visible part 93 and serve to connect intersecting with each other at a non-standard angle OPF 1a.

CB 3-3d are fixed with BKP 1a by pressing the semi-oval locking hooks 27 CB 3-3d into the lower mounting grooves 21a of the BKP 1a, resulting in fixation of the semi-oval locking hooks 27 CB 3-3d for the shelves 24 of the lower mounting groove 21a of the BKP 1a by them engagement between each other and holding in a fixed position due to the elastic properties of flexible walls with semi-oval locking hooks 26 CB 3-3d accepting their initial position after engaging semi-oval locking hooks 27 CB 3-3 e for the shelves 24 BKP 1.

The function of the LAA 1 can be performed by the lighting composite profile (OSB) 12 (Fig. 12) consisting of the retaining lighting profile (OPS) 12a, the light-diffusing casing 12b (CK). The UOP 12a in cross section is a shelf with a surface for fastening the LED strip 63 along which bounds from the surface for attaching the LED strip 63 are equal in length elastic retaining walls with a semi-oval locking groove 64, having on their surface semi-oval locking grooves 65, directed towards each other, while on the opposite side of the shelf of the retaining lighting profile 67, two elastic flexible walls with semi-oval ficks extend symmetrically about its center Splitting hooks 26 of the same length having at their ends equal semi-oval locking hooks 27 directed opposite to each other, with a height at which the lower edges of the semi-oval locking hooks 27 relative to the opposite side of the shelf of the retaining lighting profile 67 correspond to the height of the shelves without the locking protrusion 24 forming the lower mounting groove 21a of the BKP 1a, and the distance between the outer edges of the flexible walls with semi-oval locking hooks 26 OPS 12a with sponds to the distance between the ends of two equal shelves without locking protrusion 24 directed towards each other of the lower mounting groove 21a OPF 1a.

The LED tape 66 is attached to the surface for attaching the LED tape 63. Electric cable 90 for supplying voltage to the LED tape 66 is located in a rectangular cavity 20 of the BKP 1a in which, if necessary, holes are made for insertion and removal of the electric cable 90 (Fig. 12).

SK 12b consists of a light transmission (diffusing) shelf 68 along the edges of which from the back side of the light transmission shelf 70 there are equal in length elastic elastic light walls 69 having semi-oval locking hooks 27 on their surface directed towards each other, while the distance between the inner edges of the elastic light transmission walls 69 SK 12b corresponds to the distance between the outer edges of the flexible walls with semi-oval locking hooks 26 OPS 12a, and the height of the light transmission walls 69 SK 12b has the value p Allowing to diffuse the light coming from the LED strip 66 attached to the I / O 12a. Fixing and holding the IC 12b with the OPS 12a is carried out by engaging the semi-oval locking hooks 27 of the IC 12b over the semi-oval locking grooves 65 of the OPS 12a, thereby forming the USP 12.

Installed USP 12 at the edges is closed with decorative covers 12v.

The force with which the SFM 1b, CB 3-3d, OSB 12 is fixed to the BKP 1a, allows to keep DNP 18a, which is supported on their shelves, but when exposed to a stronger impact by the hands, they are separated from each other.

HC 13-13zh (13, 13.1, 13.2) is a cross-sectional shelf with a face 25, on the opposite side 25a of which a retaining wall goes out in the center with rounded edges 71 on top of which is a retaining shelf 72, with a height of the lower edges of the holding flange 72 are located relative to the opposite side 25a of the hydrocarbon shelf corresponding to the height of the shelves 24 forming the lower mounting grooves 21a of the BKP 1a, and the width of the holding flange 72 and the holding wall with rounded edges 71 HC 13-13f corresponds to the distance between ends of two equal flanges 24 directed towards each other of the lower mounting groove 21a OPF 1a. The front side of the 25th shelf 13-13Zh can be flat or volumetric to have a different shape (L-shaped - HC 13, T-shaped - HC 13a, Y-shaped - HC 13b, X-shaped - HC 13c, five-pointed form - 13g, round shape - HC 13d, square shape - 13th, star shape - 13g, etc.).

HC 13-13zh is inserted by the holding shelf 72 into the lower mounting groove 21a of the BKP 1a, where it is rotated by 10-170 degrees around the axis of the holding wall with the rounded edges 71 HC 13-13zh. HC 13-13zh designed to hold suspended in the cells of the ceiling system below DNP 18a, due to the operation of DNP 18a on shelves HC 13-13zh on the opposite side 25a.

Magnetic brackets (MK) 14, 14a (Fig. 14) are in their cross-section a retaining wall with rounded edges 71 at the base of which is a broadened retaining shelf 73, and at the top a shelf with two magnets 75 (MK 14) or with one magnet 75 (MK 14a), and the thickness of the broadened retaining flange 73 MK 14, 14a is equal to the distance from the quadrilateral 20 to the lower points of the fixing protrusions 23 of the upper mounting groove 21 of the BKP 1a. The MK 14, 14a is inserted by the broadened retaining shelf 73 into the upper mounting groove 21 of the BKP 1a, where it is rotated 90 degrees around the axis of the retaining wall with the rounded edges of the MK 14, 14a.

MK 14, 14a are designed to hold DNP 18a suspended in the cells of the ceiling system from below due to the magnetization of retaining brackets (CC) 15, 15a (Fig. 15) installed in RK18 DNP 18a along the perimeter of MK 14, 14a. Criminal Code 15, 15a is a shelf in cross section, on which, on one side, there is a metal band 76 or magnet 75, and on the other there is a retaining wall with rounded edges 71 at the base of which is a broadened retaining shelf 73, and the broadened retaining shelf 73 UK 15, 15a is equal to the distance between the lower shelves 24 and the lower points of the locking protrusions 23 of the upper shelves 22 IUU 5c. Criminal Code 15, 15a is inserted into the multipurpose groove 43a of the IRP 5c by the broadened retaining shelf 73, where it is rotated 90 degrees around the axis of the retaining wall with the rounded edges 71 of the Criminal Code 15.15 a.

   The suspension of the BKP 1a and DNP 18a to the supporting ceiling 88 is carried out using GP 4 (Fig. 4) consisting of two main parts: a flexible rod with a mounted part 4a (Fig. 4.1) and a holding unit 4b (Fig. 4.2). The flexible rod with the mounted part 4a is manufactured in various lengths and widths, and the excess part of the flexible rod with the mounted part 4a can be removed after installation, for example, cut off with scissors. It consists of a flexible rod located in the upper part with the mounted part 4a, depending on the version of its production, the mounted part: a reinforced shelf with locking hooks 35 or the mounting tab 35a and a flexible tape 36 having a multistage cone-shaped working one or two sides the surface 37 directed by the sharpest angles away from the reinforced shelf with locking hooks 35 or the mounting tab 35a, while from the ends of the flexible rod 4a, perpendicular to the multistage cone-shaped working surface 37, we can t is reinforcing rail bezel 38.

   The holding unit 4b consists of an adjusting box 40, at least one adjusting lever with locking hook 39, at least one connecting wall of the holding block 41 and a reinforced shelf with locking hooks 35. The adjusting levers with locking hooks 39 are inclined at an angle to the reinforced shelf with locking hooks 35 , with the locking hooks of the adjusting levers 39a in the locked state contact with the multistage cone-shaped working surface 37 of flexible thrust with the mounted part 4a, By moving the holding unit 4b to move along the flexible rod with the mounted part from the mounted part (35, 35a), and in the opposite direction to the mounted part (35, 35a) in the locked state, the holding unit 4b can move along the multi-stage conical working surface 37 of flexible rod with mounted part 4a sequentially moving the locking hooks of the adjusting levers 39a along a multistage cone-shaped working surface 37 and clinging to each of its fixing protrusions of a multistage cone varying the working surface 37a. In the unlocked state, as a result of pressing the adjusting levers with locking hooks 39 displacing them towards the flexible rod with the mounted part 4a, the locking hooks 39a are retracted from the multistage cone-shaped working surface 37 and the retaining block 4b freely moves along the flexible rod with the mounted part 4a any direction. The adjustment box 40 on the inner side of its walls may have guide grooves of the base part 42 for guiding the flexible rod with the part 4a to be mounted.

In the case of flexible traction with a mounted part 4a with a reinforced shelf with locking hooks 35, it is fixed to the supporting ceiling overlap 88 using GP 5g attached to the ceiling overlap using fasteners 94, for example, dowel-nails or self-tapping screws. Fastening of flexible thrust with mounted part 4a to FOP 5g is carried out by immersing its reinforced flange with locking hooks 35 into docking groove 43 GPM 5g, resulting in fixing hooks 23a of reinforced flange with locking hooks 35 flexible thrust with mounted part 4a and locking lugs of 23 shelves with locking protrusions 22 docking groove GP 5g engage with each other and are held in a fixed position due to the elastic properties of the reinforced shelf with locking hooks 35 of the flexible rod with the mounted part 4a and shelves with f The axial protrusions 22 of the docking groove 43 SPM 5g, and the flexible rod with the mounted part 4a, before immersion into the docking groove 43 of the SPM 5g, rotates 90 degrees around the flexible rod 4a along the length of the flexible rod and is mounted into it, and hitting the docking groove 43, the GP 5g assumes the initial position, while the reinforced shelf with locking hooks 35 is located across the docking groove of the GP 5g.

   In the case of flexible traction with the mounted part 4a with the mounting ear 35a, it is fixed to the supporting ceiling 88 by means of fasteners 94, for example, a dowel of a nail or a self-tapping screw.

   Flexible suspensions 4 are made of non-combustible alloys of PVC, polyamide or nylon by injection molding.

   Flexible traction with a mounted part 4a can be made of metal strip by stamping and pressing.

    The holding unit 4b can be made of metal billet by stamping and bending.

The BKP 1a is suspended to the supporting ceiling 88 by means of GP 4, fixed by the mounted part 35, 35a to the supporting ceiling 88, and by the retaining block 4b to the BKP 1a by immersing its reinforced shelf with locking hooks 35 into the upper mounting groove 21 of the BKP 1a, as a result of which the fixing hooks 23a of the reinforced flange with the fixing hooks 35 of the holding unit 4b GP 4 and the fixing protrusions 23 of the shelves with the fixing tabs 22 of the upper mounting groove 21 of the BKP 1a engage with each other and are held in place due to the elastic properties of the reinforced shelf with locking hooks 35 GP 4 and shelves with locking protrusions 22 of the upper mounting groove 21 of the BKP 1a axis in such a position is introduced into it, and when it enters the upper mounting groove 21 takes its original position, while the reinforced shelf with locking hooks 35 is located across the upper mounting groove 21 of the BKP 1a (Fig. 4.3).

When independent DNP 18a is suspended to the supporting ceiling 88 using GP 4 (Fig. 16.4, 16.5), fixed by the mounted part 35, 35a to the supporting ceiling 88, and the retaining block 4b to IWP 5c, by immersing its reinforced shelf with locking hooks 35 into the multifunctional groove 43a of the RUP 5c, resulting in locking hooks 23a of the reinforced shelf with locking hooks 35 of the retaining unit 4b of the GP 4 and locking tabs 23 shelves with locking tabs 22 of the multifunctional groove 43a They are kept in a fixed position due to the elastic properties of the reinforced shelf with locking hooks 35 GP 4 and shelves with locking tabs 22 of the multifunctional groove 43a НРП 5в, and the retaining block 4b before immersion in the multifunctional groove 43a GP 4 axis, in such a position is introduced into it, and when it enters the multifunctional groove 43a, the NRP 5b assumes its original position, while the reinforced shelf with locking hooks 35 is located across m functional groove 43a NRP 5c, while the gaps between the DNP 18a, if necessary, are closed by the LAA 1b and / or OSB 12 with fixed on their opposite side 25a using the PDU 1a section with paired flexible retaining brackets 16b that engage with their flexible holding legs 83 after insertion into the gaps between contiguous DNP 18a and DNP 18a from the side of the carrying flow ceiling 88.

In order to achieve the required suspension length, it is possible to use several series-connected GP 4, or suspensions in which the holding unit 4b will be used as the mounted part. Flexible traction GP 4 can be made without mounting parts. In this case, the used sections of flexible thrust in their upper part are fixed to the bearing ceiling 88, for example, by means of a dowel of nails or self-tapping screws.

   In addition, the suspension BKP 1a to the supporting ceiling 88 or the supporting wall 89 can be carried out using the LP 17 (Fig. 17, 17.1, 17.2) consisting of a submersible profile with a mounted shelf 84 and a submersible profile with a retaining shelf 84a interconnected by a segment of the BKP 1a, by immersing their submersible profiles 85 into a cavity of rectangular section 20 BKP 1a and then fixing it with a fastening element 94, for example, with a self-tapping screw. The LP 17 is fixed by the mounted shelf of the submersible profile with the mounted shelf 84 to the supporting ceiling 88, and by the broadened holding shelf of the submersible profile with the holding shelf 84a to the upper mounting groove 21 of the BKP 1a 1a rotates 90 degrees around the axis ZP 17, figuratively drawn along the height, in such a position it is inserted into it, and when it enters the upper mounting groove 21 it assumes its original position, with the broadened retaining An immersed profile shelf with a holding shelf 84a is located across the upper mounting groove 21 of the BKP 1a.

In addition, the suspension of the BKP 1a and DNP 18a to the supporting ceiling 88 can be carried out using any suitable for the customer ceiling suspension system, for example, using steel cable.

PSF 2, 2a, OGUK 16, IOGUK 16a, PGUK 16b can be made from metal blanks by stamping / bending, by extrusion of non-combustible alloys of PVC, nylon, polyamide, followed by cutting the desired length and by casting alloys of PVC, polycarbonate under pressure.

PSF 2b can be made by casting non-combustible alloys of PVC, polycarbonate under pressure.

CB 3-3d, HC 13-13zh can be made by casting non-combustible alloys of PVC and polycarbonate under pressure. CB 3D can be made by extrusion of aluminum, PVC and polycarbonate alloys with subsequent cutting and milling.

MK 14, 14a and UK 15, 15a can be made from metal blanks by stamping / bending, by extrusion from non-combustible PVC alloys, polycarbonate followed by cutting, as well as by casting non-combustible PVC alloys, polycarbonate under pressure, followed by fixing the magnet 75 and metal lanes 76.

BKP 1a and ULP 1b are manufactured by extrusion from non-combustible PVC alloys, non-combustible polycarbonate alloys, aluminum alloys, and also made by rolling, bending and rolling from a metal strip (figure 1.3).

BKP 1a may have, instead of a quadrangle 20 (a cavity of a rectangular cross section), a wall connecting the upper mounting groove 21 with the lower mounting groove 21a.

Submersible profile with mounted shelf 84 and submersible profile with retaining shelf 84a can be made from metal blanks by stamping / bending, extrusion from PVC alloys, polycarbonate, followed by cutting, as well as by casting PVC alloys, polycarbonate under pressure.

The front sides of the shelves 25 ULP 1, CB 3-3d, HC 13-13zh, and the surface of the BKP 1a can be decorated by painting or laminating, or when they are made of aluminum alloys, anodized. In the manufacture of 25 ULP 1, CB 3-3d, HC 13-13zh, BKP 1a from polyvinyl chloride or polycarbonate, it is possible to manufacture them with staining over the entire mass of the profile.

The front sides of the shelves 25 SFM 1, CB 3-3d, HC 13-13zh can be decorated by applying various volume figures and inscriptions on them.

The front side of the shelf 25 SFM 1 can be decorated by giving it a different relief during the extrusion process.

OPS 12a, SK 12b can be made by casting non-combustible alloys of PVC and polycarbonate under pressure, as well as by extrusion from non-combustible alloys of PVC and polycarbonate, followed by cutting the desired length.

OPS 12a can be made by extrusion of aluminum alloys, followed by cutting the desired length.

BKP 1a is attached to the bearing walls 89 by means of fixing brackets 11 and / or fixing supports 11a.

KK 11 (Fig. 10) in cross section is a retaining wall with rounded edges 71 at the base of which is a broadened retaining shelf 73, and at the top a long retaining shelf 72a, on one side of which in the direction opposite to the wall is located with rounded edges 71 retaining wall with an opening 81 through which KK 11 is fixed to the supporting wall 89, and the thickness of the broadened retaining shelf 73 its mounting slot 21 OPF 1a. KK 11 is inserted into the upper mounting groove 21 of the BKP 1a by an extended holding shelf 73, where it is rotated by 90 degrees around the axis of the holding wall with a rounded edge 71 KK 11. with the fixed overhead latching device 1b located close to the bearing wall 89.

KP 11a (Fig. 11) in cross section is a widened wall with a hole 82 in the upper side of which there is a long holding shelf 72a having on the opposite side of the widened wall with a hole 82 two elastic flexible walls with semi-oval locking hooks 26 of the same length directed in the same side as the widened wall with the opening 82 with a relatively long holding shelf 72a, the flexible walls with semi-oval locking hooks 26 having equal semi-oval fixes at their ends dumb hooks 27 are directed opposite to each other, the height on which the lower edges of the semi-oval locking hooks 27 are located relative to the long holding shelf 72a corresponds to the height of the shelves with locking lugs 23 forming the upper mounting slots 21 of the BKP 1a, and the distance between the outer edges flexible walls 26 KP 11a corresponds to the distance between the ends of two equal shelves with locking protrusions 23 directed to each other of the upper mounting groove 21 of the BKP 1a. KP 11a is fixed to the BKP 1a by pressing in flexible walls with semi-oval locking hooks 26 KP 11a into the upper mounting groove 21 of the BKP 1a. The width of the broadened wall with a hole 82 is equal to half the difference of the width of the LAA 1b and BKP 1a.

The contours of the RK 18 (6.4, 6.7), repeating the cells of the ceiling system closed for the contour prepared for their laying, are made of straight or bent self-tightening tension profile (SNP 5), which, depending on the size of the prepared cells, may consist of straight or bent base frame profiles (PDU) 5a, reinforced base frame profile (UBD) 5b made of solid material and used with them for tensioning and fixing GDM 9 rectilinear or bent tension frame profiles (NPP) 5c made of solid material (Fig. 5, 5.1).

PDU 5a (Fig. 5.1) is a cross section of a carrier wall 19 on one side of which two shelves of the same length extend that have equal walls at their ends that are directed toward each other, and fixing protrusions 23 are directed toward the bearing wall at the ends of equal walls 19 thus forming a docking groove 43, with a curved wall arranged above the load-bearing wall 19 and the docking groove 43 in the form of a mirror-oriented letter “C” with the convex side turned towards the docking direction about groove 43, thus forming a pre-locking groove 44. On the other side of the supporting wall 19 in the direction opposite to the direction of the connecting groove 43 there is a shelf on which the C-shaped wall 45 is turned turned by the convex side opposite to the location of the supporting wall 19, thereby forming a tension groove 47, wherein the C-shaped wall 45 has at least one locking protrusion of C-shaped wall 46 on the surface of its inner side 77 and has a form in which each point of the surface of the inner one 77 C - shaped wall 45 is located at the same radius distance (R1) whose center is located in the center of the figuratively drawn circle placed in the prefixation groove 44, and the locking protrusions 23 are also located at the same radius distance, the center of which is located in the center of the figuratively drawn circle in the prefixing groove 44.

UBRP 5b (Fig. 5.1) is in cross section at least one rectangle (rectangular cavity) 20 on one side of which are two shelves of equal length having equal walls at their ends equal to each other, and fixing lugs are located at the ends of equal walls 23 directed in the direction of the rectangle 20 thus forming a connecting groove 43, and above the rectangle 20 and the connecting groove 43 there is a curved wall in the form of a mirror-oriented letter “C” of the turned release with the side facing the direction of the docking groove 43, thus forming the pre-locking groove 44. On the other side of the rectangle 20 in the direction opposite to the direction of the docking groove 43 there is a shelf on which the C-shaped wall 45 is turned with the convex side opposite to the location of the rectangle 20 thus forming the tensioning groove 47, and the C-shaped wall 45 has at least one fixing protrusion C-shaped wall 46 on the surface of its inner side 77 and is shaped like wherein each point of the inner side surface 77 of the C-shaped wall 45 is located at the same radius distance (R1) whose center is located in the center of the figuratively drawn circle placed in the pre-fixation groove 44, with the locking protrusions 23 also located at the same radius distance, the center of which is located in the center of the figuratively drawn circle placed in the groove of the preliminary fixation 44.

UBRP 5b can be made without a docking groove 43 (Fig. 5.2).

C - shaped wall 45 PDU 5a and UBRP 5b on the convex side may have an additional contour wall 45a giving additional strength and contour to the C - shaped wall 45 (Fig. 5.3).

NPP 5c (Fig.5.1) is in cross section of the carrier shelf 48 on one side of which is the pressure roller 49, the diameter of which is placed in the groove of the preliminary fixation 44 of PDU 5a and UBFP 5b, and on the other side of the carrier shelf 48 is U - shaped pressure chute 50, and above carrier shelf 48 and U-shaped pressure chute 50, two load-bearing walls 19 are of equal length, at least one of which is an extension of the wall U-shaped pressure chute 50 that is distant from the pressure roller 49; the surfaces directed toward each other shelves 22, 24, while creating a multifunctional groove 43a, with the upper pair of shelves 22 having at their ends the locking protrusions 23 directed towards the lower part of the U - shaped pressure chute 50, and U - shaped pressure chute 50 and the supporting wall 19, which is its continuation, has on the surface of its external side 78, distant from the pressure roller 49, at least one fixing hook U - shaped pressure chute 51, and the wall U - distant from the pressure roller 49 different clamping chute and bearing wall 19 which is its continuation and having at least one fixing hook 51 are shaped in which each point of the surface of the outer side 78 of these walls is located at the same distance of radius (R2) whose center is located in the center of the clamping roller 49, and those located on the outer side 78 of the wall of the U - shaped pressure chute 50 and the supporting wall 19 which is its continuation; It is laid in the center of the pressure roller 49, and the radii (R1) of PDU 5a, UBRP 5b and (R2) UFB 5c have dimensions at which the locking hooks 51 of the UFU 5c are securely fixed with locking lugs 46 of the PBU 5a and UBRP 5b, while being tensioned between them and fixed pre-clamped in the groove of the pre-fixation 44 GDM 9, and R1 = R2 + (2 * thickness of the GDM 9), which refers to the thickness of the GDM 9 fixed by the pressure roller 49 in the groove of the pre-fixation 44 and clamped between the fixing hooks of the U-shaped pressure chute 51 CHP 5v and locking protrusions C - shaped wall 46 of the CVT UBDP 5a and 5b.

The fixing hooks of the U - shaped pressure chute 51 NPP 5b and the locking protrusions of the C - shaped wall 46 PDU 5a and UBD 5b can have different shapes allowing the NPI 5b to reliably be fixed and with PDU 5a and UBFP 5b.

The shelves 24 of the multifunctional groove 43a of the IUU 5b, directed towards each other, can be combined into one common shelf (Fig. 5.4). NPP 5b can be made of a different shape (Fig. 5.5).

A 5p (Fig. 5.1) is a cross section of a carrier wall 19 in which two shelves of the same length on one side of the top and bottom have equal walls at their ends that are equal to one another, and at the ends of equal walls there are fixing protrusions 23 directed in the direction of the bearing wall 19, thus forming a connecting groove 43.

PDU 5a, UBRP 5b, NPP 5v and GP 5g are made by extrusion of aluminum alloys, non-combustible PVC alloys and polycarbonate (Fig. 6.5).

PDU 5a, UBP 5b and GP 5g have the same connecting grooves in size, the necessary unification of their connections and stiffening of the frame structure.

 Based on the choice of the degree of angle of connection of profiles RK 18 (Fig. 6.4) and the method of their joining, the following types of connecting corners are used (Fig. 6, 6.1, 6.3): a right angle with grooves for an internal angle 6, a right angle with grooves for an external corner 6a, universal corner with grooves 6b, hollow corner with grooves 6c. Corners 6, 6a (Fig. 6) have legs of corner 52, corner 6b has a leg of a corner with a hole 61 and a leg of a corner with an axis 62 immersed in a docking groove 43 of frame profiles PDU 5a, UBFP 5b and / or a cavity of rectangular section 20 UBFP 5b and they are a rectangle in cross section, and one of the sides of the rectangle has clamping grooves 53 having the shape and size that allow the locking protrusions 23 of the connecting grooves of PDU 5a, UBRP 5b to hide in them. The legs of the corners 6, 6a are firmly interconnected at an angle of 81 degrees relative to each other. The clamping grooves 53 of the straight angle with the grooves for the inner corner 6 are located inside the angle 6, and the clamping grooves 53 of the angle with the grooves for the outer corner 6a are located outside the corner.

Universal corner with grooves 6b (Fig. 6.1) is designed for joining frame profiles at any angle, and consists of two elements: a leg of a corner with a hole 61 and a leg of a corner with an axis 62 connected together at the right angle. Cylinder 57 is located at the end of the leg of the corner with a hole 61, while on the outer cylindrical surface of the cylinder 57 along its height there are fixing cone-shaped depressions and protrusions of the cylinder 58, while the concave wall of the leg 57a not closed by the cylinder 57 on which is located below the cylinder 57 the fixing cone-shaped depressions and protrusions of the concave wall of the leg 58a, and their direction corresponds to the direction of the fixing cone-shaped depressions and protrusions of the cylinder 58, and the frequency and dimensions of the fixing x cone-shaped depressions and protrusions of the cylinder 58 located on the cylinder 57 and on the concave wall of the leg 57a, and the radii on which they are located from the center of the cylinder 57 are equal, while the center of the cylinder 57 along its height is the opening of the cylinder 59. Leg angle with axis 62 the location of the cylinder 57 relative to the end of the leg of the corner, the absence of the hole of the cylinder 59 and the axis of the foot 60 outgoing from the center of the cylinder 57, the diameter and height of the axis of the foot 60 correspond to the internal dimensions of the hole of the cylinder 59 of the legs of the corner with the hole 61. When the legs 60 are immersed at the required angle of the axis 60 into the cylinder 57, mutual fixation of the fixing grooves and projections of the cylinders 58 and the fixing cone-shaped grooves and the projections of the corner legs of the legs 58a with the axis 61 62. Subsequent immersion of the universal angle with grooves 6b in the docking grooves 43 of the frame profiles ensures reliable fixation of the specified angle due to the absence of the possibility of shifting the angle leg with the hole 61 and the angle leg with axis 62 along the axis of the leg 60.

  If desired, the legs of the corner with the hole 61 and the legs of the corner with the axis 62 can be fixed between each other by the fastening element 94, for example, by means of a self-tapping screw, a bolted connection or a rivet.

The legs of the angles 6,6a, 6b on the side of the location of the clamping grooves 53 can have at least one hole with an internal thread 54 intended for screwing into it a threaded element with an external thread 55 (screw, self-tapping screw) on which the washer 56 is located (Fig. 6.2). As a result of screwing into the corners 6,6a, 6b of the threaded elements with an external thread 55, the legs of the corners 52, 61, 62 with the clamping grooves 53 get pinched with the locking lugs 23 of the connecting grooves 43, which ensures a reliable fixation of the connection of the frame profiles.

UBRP 5b made without a docking groove 43 when building the RK 18 are interconnected with the help of corners 6-6b with submerged legs 52, 61, 62 in a cavity of rectangular section 20.

A hollow corner with grooves 6c (Fig. 6.3) in cross section is a shelf at the edges of which two walls of the same length extend in one direction. A hollow corner with grooves 6c is used to interconnect the SPM 5g when building an RC 18 with a small perimeter (Fig. 9). Such RK 18 can be laid, for example, in the cells of the ceiling system made from existing profiles on the market, for example, T32, T24, T15. The docking groove 43 of the SPM 5g in this case serves to connect the AUR 5g of the hollow corners with grooves 6c and subsequent tension and fix the GDM 9 into them using the mounting profile 10 by pressing the GDM 9 into the connecting groove 43 (Fig. 9). The mounting profile 10 in cross section is a rectangle. The mounting profile 10 is made of an elastic material.

Connecting angles 6, 6a, 6b, 6b can be made of polyvinyl chloride, polycarbonate and aluminum alloys by injection molding. The connecting corners 6, 6a can be made of metal and aluminum by cutting them from a profile of the desired size, followed by milling or pressing 52 clamping grooves 53 on their legs.

If it is necessary to create a larger RK 18 (Fig. 7.2), in order to avoid a significant deflection of the frame profile forming the contour of the RK 18, it is possible to use GPs 5g. The fastening of the SPM 5g with the SNP 5 is carried out using the connecting brackets (Fig. 7, 7.1): the connecting brackets T are figurative 7, the connecting brackets X are figurative 7a, the universal connecting brackets 7b. The connecting bracket T - shaped 7 (Fig.7) has a leg of the bracket 52a immersed in the docking groove 43 of the frame profiles of PDU 5a, UBRP 5b and GP 5g and is a rectangle in cross section, and one of the sides of the rectangle has clamping grooves 53 having the shape and size allow hiding in them the locking protrusions 23 of the connecting grooves SNP 5, SPO 5g, and from the legs of the bracket 52a from the pinning grooves 53 comes a curved carrier shelf 79 at the edges of which in the direction of the curved carrier shelf 79 tsya elastic wall bracket 80 having at its terminals 23a of the locking hooks directed in opposite relation to each other hand is pressed into the SPM 5g, the shelf curved carrier 79 out of the bracket legs 52a at right angles relative to the location of grooves 53 pinches.

The connecting bracket X -shaped 7a (Fig. 7.1) has a leg of the bracket 52a which is immersed in the docking groove 43 of the frame profiles of PDU 5a, UBRP 5b and FOC 5g and is a rectangle in cross section, with one of the sides of the rectangle having clamping grooves 53 having the shape and the size allows the fixing protrusions 23 of the connecting grooves of the SNP 5, HOP 5g to be hiding in them, and from the leg of the bracket 52a from the side of the clamping grooves 53 in the opposite directions, curved bearing flanges 79 at the edges of which are located in the direction I bent bearing flanges 79 are resilient bracket wall 80 having at its terminals 23a of the locking hooks directed in opposite relation to each other hand is pressed into the SPM 5g, the curved bearing shelves 79 emerge from the bracket legs 52a at right angles relative to the location of grooves 53 pinches.

The universal connecting bracket 7b is designed for joining frame profiles at any angle, and consists of two elements: the bracket leg with a hole 61a and the bracket leg with the axis 62a. The leg of the bracket with a hole 61a is immersed in the docking groove 43 of frame profiles SNP 5 and FOP 5g and is a rectangle in cross section, with one of the sides of the rectangle having clamping grooves 53 having the form and size allowing the locking protrusions 23 of the connecting grooves SNP 5 to hide in them. , GP 5g, with the cylinder 57 leaving the bracket leg with the hole 61a on the side of the clamping grooves 53, with fixing cone-shaped depressions located on the outer cylindrical surface of the cylinder 57 along its height the protrusions of the cylinder 58, while below the location of the cylinder 57 on the leg of the bracket with a hole 61a is a concave wall of the leg 57a on which are fixed cone-shaped depressions and protrusions of the concave wall of the leg 58a, and their direction corresponds to the direction of the fixing cone-shaped grooves and protrusions of the cylinder 58, and the frequency and the dimensions of the fixing cone-shaped depressions and protrusions of the cylinder 58 located on the cylinder 57 and on the concave wall of the leg 57a, as well as the radii on which they are located from the center of qi Indra 57 are equal, the center of the cylinder 57 along the height of the cylinder bore 59 is disposed.

The leg of the bracket with the axis 62a is immersed in the docking groove 43 GP 5g and is a leg of the angle with the axis 62 in which the clamping grooves 53 are on the plane of the bracket legs with the axis 62a parallel to the plane of contact of the cylinders 57 of the bracket legs with the hole 61a and the legs of the bracket with axis 62a and the diameter and height of the axis of the leg 60 of the bracket leg with the axis 62a correspond to the internal dimensions of the hole in the cylinder 59 of the bracket leg with the hole 61a. When the leg 60 of the bracket with the axis 62a is immersed at the desired angle of the axis, the fixing recesses and projections of the cylinders 58 and the fixing cone-shaped depressions and projections of the concave walls of the legs 58a of the bracket with the hole 61a and the bracket with the axis 62a mutually fix into each other. Subsequent immersion of the universal coupling bracket 7b into the docking groove 43 GPM 5g ensures reliable fixation of a given angle due to the absence of the possibility of displacement of the bracket leg with a hole 61a and the bracket leg with axis 62a along the axis of the leg 60.

The sections of the connecting brackets 7, 7a, 7b having a rectangular shape in cross section on the wall of one of the sides of which are pinchable grooves 53 having a shape and size that allow the fixing protrusions 23 of the connecting grooves 43 of the SNP 5, SPO 5g to hide, can have at least one hole with internal thread 54 intended for screwing a threaded element with an external thread 55 into it (screw, self-tapping screw) on which washer 56 is located. As a result of screwing into the connecting brackets 7.7a, 7b of screw elements with external p 55, the legs of the brackets 52a, 61a, 62a with the clamping grooves 53 are pinched with the locking lugs 23 of the connecting grooves 43, which ensures a reliable fixation of the connection of the frame profiles.

Connection brackets 7,7a, 7b can be made of polyvinyl chloride, polycarbonate and aluminum and metal alloys by injection molding.

   In addition, if it is necessary to create a larger RK 18, in order to avoid a significant deflection of the frame profile forming the contour of the RK 18, it is possible to use a reinforcing profile 8-8d (Fig. 8) of the PDU 5a submerged in the connecting grooves, UBRP 5b, GP 5g, and also rectangular cavities section 20 UBP 5b and BKP 1a to give them rigidity, as well as for longitudinal splicing. The reinforcing profile may have a different shape in cross section: C - shaped reinforcing profile 8, O - shaped reinforcing profile 8a, P - shaped reinforcing profile 8b, E - shaped reinforcing profile 8b, H - shaped reinforcing profile 8g and B - shaped reinforcing profile 8d.

   The reinforcing profile 8 is made by extrusion from aluminum or PVC alloys, as well as by rolling and bending from metal strip.

Brackets connecting bracket T - shaped 7, connecting bracket X - shaped 7a, universal connecting bracket 7b can be made of aluminum, PVC and polycarbonate alloys by casting and steel by stamping / bending.

Made RK 18 obtyagivayutsya from the front side of GDM 9, thus forming DNP 18a (Fig. 18). As GDM 9, depending on the requirements for sanitary standards, bactericidal requirements for the room, light transmission and light scattering ability, aesthetic preferences and design imagination, non-combustible materials can be used: woven materials of synthetic and / or natural fibers of different composition and color, natural and artificial leather of various colors, different in composition and color PVC film, woven nets, PVC nets and other flexible materials, including the possibility of applying to them any of the known methods of images and / or label, as well as perforation. The tension of GDM 9 on the RK 18 can be carried out in domestic conditions, as it is carried out without a special tool and the presence of special skills.

Fastening method of flexible decorative material:

1. GDM 9 fit face to work surface. The dimensions of the perimeter of the GDM 9, which is ready for installation, should be pre-calculated for ease of installation so that the tension groove 47 and the pre-fixation groove 44 of the PDU 5a, UBRP 5b on each side can be larger than the perimeter of the RK 18 with a margin.

2. From above, in the center of GDM 9, the RK 18 fits with the flat side down.

3. The previously longitudinally stretched edges of the GDM 9 are successively superimposed on the tension groove 47 and the groove of the preliminary fixation 44 of the PDU 5a, UBRP 5b and fixed in it with the help of pieces of the NPP 5c at the corners. Pre-tensioned over the RK 18 GDM 9 is clamped by a pressure roller 49 CHP 5c in the groove of pre-fixation 44 PDU 5a, UBRP 5b followed by indentation and tension of GDM 9 in the tension groove 47 due to the impact on the GDM 9 U -shaped pressure chute 50 NRP 5v as a result which the fixing hooks of the U - shaped pressure chute 51 of the NPP 5c are securely fixed with the fixing projections C - of the shaped wall 46 of the PDU 5a and UBRP 5b, while between them they are clamped and fixed in stages in the groove of the preliminary fixation 44 GDM 9.

4. Further fixation and tension of GDM 9 occurs in any convenient sequence.

When failure of longitudinal tension of GDM 9 or its dismantling is detected, the CHP 5b is compressed due to the impact on the load-bearing walls 19 of the CHP 5b, squeezing them together, resulting in the locking hooks of the U-shaped pressure chute 51 of the CHP 5c disengaging from the locking lugs C - shaped walls 46 PDU 5a and UBRP 5b and after removing the pinch roller 49 NPP 5c from the pre-fixation groove 44 PDU 5a, UBRP 5b, GDM 9 ceases to be clamped.

The covered GDM 9 RK 18 are ready-for-laying DNP 18a (Fig. 18).

When used as GDM 9 PVC films, after their installation on the RK 18, additional heating of DNP 18a with hot air is allowed for additional smoothing and stretching of PVC films.

In addition, the finished DNP 18a can be laid in the cells of frame structures made of standard profiles existing on the market, for example, T32, T24, T15.

Giving OPF 1a, ULP 1b, PDU 5a, UBPP 5b, NPP 5v, GP 5g made of aluminum bent shape is carried out by rolling on bending machines. BKP 1a, ULP 1b, BKP 5a, UBRP 5b, HOP 5g made of PVC or polycarbonate alloys can be bent by heating and subsequent rolling, as well as placing a bent-shaped reinforcing profile into a rectangular cavity 20 BKP 1a, and the connecting groove of BKP 5a, UBP 5b, GP 5g.

If necessary, install in DNP 18a, for example, lighting equipment 91 or decorative grilles of outputs / inputs suitable to DNP 18a of ventilation channels, audio speakers and. etc., it is foreseen the use of mounting frames 92, 92a of various shapes and sizes (Fig. 20), as well as frames made of GP 5g and connected by hollow corners with grooves 6c (Fig. 20.1). An example of a section of DNP 18a with a mounting frame made from GP 5g installed in it is shown in FIG. 13.1. GDM 9 is fixed to 5 mounting frames 92, 92a, as well as to frames made from GP 5g using mounting profile 10. Lighting equipment 91, having a large rectangular perimeter, can be mounted by surface mounting with fixing to DNP 18a or USPP 1, or by laying or hanging the lighting equipment in the cells of the suspended ceiling system prepared for them. In case of surface mounting to the DNP 18a, the housing of the lighting equipment is fastened with fasteners 94, for example, with self-tapping screws to the GP 5g fixed on the RC 18 DNP 18a in predetermined places. In addition, the lighting equipment 91 can be individually suspended to the supporting ceiling 88 using GP 4 or other suspensions, and the holding unit 4b is fixed to the lighting equipment using the SPM 5g lighting equipment pre-fixed on the back side (Fig. 21.1).

It is also possible to place the lighting equipment 91 above / behind the DNP 18a, mounting it to the RK 18 and / or BKP 1a, and / or DNP 18a and / or to the supporting ceiling 88, and / or the supporting wall 89 thus forming illuminated from closed space DNP 18a (Fig. 21).

In addition, the lighting equipment 91 and various components of fire and security systems, audio and video systems can be fixed to the BKP 1a with the help of pre-mounted on their rear side of the HC 13d, 13th, by immersing the retaining shelves 72 HC 13d, 13e into the lower mounting groove 21a of the BKP 1a, where HC 13d, 13e rotates by 10-170 degrees around the axis of the retaining wall, figuratively drawn, with rounded edges 71 HC 13-13g (Fig. 21.1).

If necessary, insulation and / or noise absorption in rooms with installed ceiling and wall systems, insulation 86 and / or sound-absorbing materials 86a are laid to the supporting ceiling 88 and / or the bearing wall 89 and / or above DNP 18a (Fig. 19).

If it is necessary to install DNP 18a in the suspended ceiling cells of the suspended ceiling system from above or immerse into the cells from below, as well as suspend DNP 18a using GP 4 to the supporting ceiling 88, installed in rooms with various communications 87 that run vertically along the supporting walls, which should fit DNP 18a, for example, water / gas / heat pipes, cable channels provide for the construction of RC 18 DNP 18a in which the framework of RC 18 DNP 18a is made taking into account the size and number of communes Ikatsy 87 (Fig. 22).

Semi-oval locking hooks 27 used in the description of the group of inventions can be replaced with triangular, polygonal hooks that perform the same function of holding and, if necessary, dismantling the LAA 1a, CB 3-3e, OSB 12.

The retaining shelf 72 and the extended retaining shelf 73 have rounded edges allowing the shelves 72, 73 to fall into the connecting grooves 43 or the multi-functional grooves 43a to rotate in them, becoming across the groove 43, 43a.

The retaining wall with rounded edges 71 has rounded edges allowing it to roll between the shelves 22, 24 of the connecting grooves 43 or the multi-functional grooves 43a.

Thus, the task assigned to the author is completed.

Claims (65)

1. Universal suspension frame system containing profiled longitudinal and transverse rails forming closed cells of the supporting frame along which the decorative panels are laid, characterized in that it is made ceiling, and the frame of the system consists of one type of rectilinear or curved universal frame composite profile 1, consisting of a straight or curved base frame profile 1a, made of solid material, which in cross section is a four-sided flax 20 (cavity of rectangular section), in which from the end of the side walls, along these walls, elastic load-bearing walls 19 of the same length extend in opposite directions, having at their ends equal shelves directed toward each other, with a pair of shelves 22 above the quadrilateral, directed towards each other, has fixing protrusions 23 on its ends, directed towards the rectangle 20, thus forming the upper mounting groove 21 of the base frame profile 1a, and the pair below the quadrilateral 20 to the non-locking protrusions 24 with the walls on which they are located, and the bottom side of the quadrilateral 20 form the lower mounting groove 21a of the base frame profile 1a and from the rectilinear or curved retaining front profile 1b made of solid material, which is a shelf with a cross section with the front side 25, on the opposite side 25a of which, symmetrically relative to the center of the shelf, there are two equal in height elastic flexible walls 26, having at their ends equal semi-oval locking flails 27 directed in opposite directions relative to each other, while the height at which the lower edges of the semi-oval locking hooks 27 are located relative to the opposite side of the shelf 25a of the retaining front profile 1b corresponds to the height of the shelves without locking projections 24 forming the lower mounting groove 21a of the base frame profile 1a, and the distance between the outer edges of the flexible walls with the semi-oval locking hooks 26 of the retaining face profile 1b corresponds to the distance between the ends of two equally shelves without locking protrusions 24 directed towards each other of the lower mounting groove 21a of the base frame profile 1a, while the retaining front profile 1b is connected to the base frame profile 1a by pressing the semi-oval locking hooks 27 of the retaining front profile 1b to the lower mounting grooves 21a of the base frame profile 1a, with the result that the semi-oval locking hooks 27 of the retaining front profile 1b are fixed to the flanges 24 of the lower mounting groove 21a of the base frame profile 1a by engaging between hold and hold in a fixed position due to the elastic properties of flexible walls with semi-oval locking hooks 26 of the retaining front profile 1b, which assumed their original position after the semi-oval locking hooks 27 of the retaining front profile 1b were hooked to the shelves 24 of the basic frame profile 1a, and the connection between the universal frame the composite profile 1 and the base frame profile 1a are made with the help of spring connecting clamps 2-2b, having mirror-like x, tending in opposite to each other side of the wall 28 of the locking shelf 30 and locking hooks 29, directed in one direction relative to each other and opposite from the mirrored wall, while the shelves and hooks of the spring connecting clamps 2-2B create between the retaining groove of the spring connecting clamps 2-2b, immersed in the upper mounting grooves 21 of the base frame profile 1a, as a result of which the fixing hooks 29 of the spring connecting clamps 2-2 are fixed b for the shelves with locking protrusions 22 of the upper mounting groove 21 of the base frame profile 1a from below by engaging with each other, and the locking shelves of 30 spring connecting clamps 2-2b while resting on the shelves with locking lugs 22 of the upper mounting groove 21 of the basic frame profile 1a from above By preventing the fixing hooks 29 from diving deep into the upper mounting groove 21 of the base frame profile 1a, it is more than the required level, due to this, the longitudinal b the base frame profile 1a due to the springing properties of the walls 28 of the spring connecting clamps 2-2b, tending in different directions with respect to each other, and / or different in shape connecting inserts 3-3d, representing in cross section a shelf with the front side 25, on the opposite side 25a of which, symmetrically with respect to the center of the shelf, two elastic flexible walls 26 of the same length extend, having at their ends equal semi-oval locking hooks 27 directed in opposite directions relative but each other, while the height at which the lower edges of the semi-oval locking hooks 27 are located relative to the opposite side of the flange 25a of the connecting inserts 3-3d corresponds to the height of the shelves 24 forming the lower mounting grooves 21a of the base frame profile 1a, and the distance between the outer edges of the flexible walls 26 connecting inserts 3-3d corresponds to the distance between the ends of two equal shelves 24, directed towards each other, the lower mounting groove 21a of the base frame profile 1a, and the connection of intersecting base The first frame profile 1a is made by pushing the semi-oval locking hooks 27 of the connecting inserts 3-3d into the lower mounting grooves 21a of the base frame profile 1a, as a result of which the semi-oval locking hooks 27 of the connecting inserts 3-3e are fixed to the shelves 24 of the lower mounting groove 21a of the basic frame profile 1a by engaging them between each other and holding them in a fixed position due to the elastic properties of flexible walls with semi-oval locking hooks 26 of the connecting inserts 3-3e, I accept after engaging the semi-oval locking hooks 27 of the connecting inserts 3-3d for the shelves 24 of the base frame profile 1a, suspended from the supporting ceiling with the help of suspensions, forming rectilinear and / or curvilinear different-sized, different-figured, closed along the contour of the suspended ceiling cell, in which are stacked on top and / or suspended from below, fastened between each other by connecting corners 6-6b and connecting brackets 7-7b, frame profiles that form straight and curved lines frame structures 18, covered from the front side with a flexible decorative material 9, forming straight and curvilinear decorative tension panels 18a of various sizes and shapes and / or are suspended to the supporting ceiling overlap independently of one another, while hanging from the bottom in suspended cells suspended along the contour of the ceiling systems of decorative tension panels 18a are fastened in them with the help of various-shaped retainers 13-13zh, which in their cross-section represent a shelf with a front side 25, with opposite The second side 25a of which has a retaining wall with a rounded face 71 at the center, the retaining shelf 72 is located at the top, and the height at which the lower edges of the retaining shelf 72 are located relative to the opposite side 25a of the retaining inserts corresponds to the height of the shelves 24 forming the lower mounting slots 21a of the base frame profile 1a, and the width of the holding shelf 72 and the holding wall with rounded edges 71 of the holding inserts 13-13g corresponds to the distance between the ends of two equal shelves 24, nap equal to each other, the lower mounting groove 21a of the base frame profile 1a, the fixing of the retaining inserts 13-13g to the base frame profile 1a is made by inserting the holding flange 72 into the lower mounting groove 21a of the base frame profile 1a, which is turnable on 10-170 degrees around the figuratively drawn axis of the holding wall with rounded edges 71 of the holding inserts 13-13g and / or the decorative tension panels 18a are fixed in the cells with the help of the multifunctional ones installed along their perimeter x slots 43a single flexible retaining arms 16, causing tensioning decorative panel 18a are held in the cells by engagement of the flexible retaining tabs 83 of the base profile frame 1a from the upper mounting groove 21. 2. The system under item 1, characterized in that the base frame profile 1a and the retaining front profile 1b are made by extrusion of non-combustible PVC alloys. 3. The system of claim. 1, characterized in that the base frame profile 1a and the retaining front profile 1b are made by extrusion of aluminum alloys. 4. The system of claim. 1, characterized in that the base frame profile 1a and the retaining front profile 1b are made by extrusion of non-combustible polycarbonate alloys. 5. The system of claim. 1, characterized in that the base frame profile 1a and the retaining front profile 1b are made by rolling, bending and rolling of a metal strip. 6. The system of claim. 1, characterized in that the front sides of the shelves 25 of the retaining front profile 1b, the connecting inserts 3-3e, the retaining inserts 13-13g, and the surface of the base frame profile 1a are decorated by staining. 7. The system of claim. 1, characterized in that the front sides of the shelves 25 of the retaining front profile 1b, the connecting inserts 3-3e, the retaining inserts 13-13g, and the surface of the base frame profile 1a are decorated by lamination. 8. The system of claim. 1, characterized in that the front sides of the shelves 25 of the retaining front profile 1b, the connecting inserts 3-3e, the retaining inserts 13-13g, and the surface of the base frame profile 1a of aluminum alloys are decorated by anodizing. 9. The system of claim. 1, characterized in that the front sides of the shelves 25 of the retaining front profile 1b, the connecting inserts 3-3e, the retaining inserts 13-13g, and the surface of the base frame profile 1a made of polyvinyl chloride or polycarbonate are decorated by dyeing throughout the mass of the profile in the manufacturing process. 10. The system of claim. 1, characterized in that the front sides of the shelves 25 of the retaining front profile 1b, connecting inserts 3-3e, retaining inserts 13-13zh decorated by applying on them various three-dimensional shapes and inscriptions. 11. The system of claim 1, characterized in that the front side of the shelf 25 of the retaining front profile 1b is decorated by giving it a different relief during the extrusion process. 12. Universal hanging frame system containing profiled longitudinal and transverse rails forming closed cells of the supporting frame along which the decorative panels are laid, characterized in that it is made from the ceiling with a lighting composite profile, and the frame of the system consists of one type of straight or curved universal frame composite profile 1, consisting of a straight or curved base frame profile 1a, made of solid material, which in the transverse section It is a quadrilateral 20 (a cavity of a rectangular cross section), in which elastic load-bearing walls 19 of equal length, having equal shelves at each end, which are equal to each other, are above the quadrangle from the ends of the side walls, along these walls. a pair of shelves 22, directed towards each other, has on its ends locking protrusions 23 directed towards the rectangle 20, thus forming the upper mounting groove 21 of the base frame profile 1a, and the below the quadrangle 20, a pair of shelves without locking protrusions 24 with walls on which they are located, and the lower side of the quadrilateral 20 form the lower mounting groove 21a of the base frame profile 1a and from the lighting composite profile 12, consisting of a retaining lighting profile 12a, representing a cross section of a shelf with a surface for fastening the LED tape 63 with a fixed LED tape 66, and at the edges of the shelf with a surface for fastening the LED tape 63 on the surface side for The LED strip 63 mounts are equal in length to elastic retaining walls with a semi-oval locking groove 64, having semi-oval locking grooves 65 on their surface, pointing towards each other, while on the opposite side of the shelf holding the lighting profile 67, symmetrically with respect to its center, exit two elastic flexible walls with semi-oval locking hooks 26 of the same length, having at their ends equal semi-oval locking hooks 27. directed in opposite directions side, the height at which the lower edges of the semi-oval locking hooks 27 are located relative to the opposite side of the shelf of the retaining lighting profile 67 corresponds to the height of the shelves without the locking lug 24 forming the lower mounting groove 21a of the base frame profile 1a, and the distance between the outer edges flexible walls with semi-oval locking hooks 26 of the retaining light profile 12a correspond to the distance between the ends of two equal shelves without the locking protrusion 24 directed to each other, the lower mounting groove 21a of the base frame profile 1a and the light-diffusing casing 12b consisting of a light transmission (light scattering) shelf 68, at the edges of which, on the back side of the light transmission shelf 70, are equal in length to the elastic light transmission wall 69 having their surface semi-oval locking hooks 27 directed towards each other, and the distance between the inner edges of the elastic light transmission walls 69 of the diffusing casing 12b corresponds to the distance between the outer edges of the flexible walls with the semi-oval locking hooks 26 of the retaining lighting profile 12a, and the height of the light transmission walls 69 of the light-diffusing housing 12b has a value that allows to diffuse the light coming from the LED strip 66 attached to the retaining light profile 12a, while fixing and holding the light-scattering skin; from the retaining lighting profile 12a carried out by engagement of the semi-oval locking hooks 27 of the diffusing housing 12b for the semi-oval fixed Leading grooves 65 of the retaining light profile 12a, thereby forming the lighting composite profile 12, the lighting composite profile 12 being closed along the edges with decorative covers 12c, the universal frame composite profile 1 and the base frame profile 1a being connected with each other by means of spring connecting clips 2- 2b, having on the mirrored, tending in opposite to each other sides of the wall 28, the locking shelf 30 and locking hooks 29, directed in one with respect to each other and opposite to the mirror wall, the shelves and hooks of the spring connecting clamps 2-2b create between them the retaining groove of the spring connecting clamps 2-2b immersed in the upper mounting grooves 21 of the base frame profile 1a, resulting in the fixing of the fixing hooks 29 of the spring connecting clamps 2-2b for the shelves with the locking lugs 22 of the upper mounting groove 21 of the base frame profile 1a is carried out from below by engaging with each other, and fixed At the same time, the supporting flanges 30 of the spring connecting clamps 2-2b are resting on the shelves with the locking lugs 22 of the upper mounting groove 21 of the base frame profile 1a, preventing the immersion of the locking hooks 29 into the upper mounting groove 21 of the basic frame profile 1a, which is implemented retaining in a fixed position the joining longitudinally base frame profile 1a due to the springing properties of the walls 28 of the spring connecting clamps 2-2b tending in opposite directions In relation to each other, and / or different in shape connecting inserts 3-3e, representing in a cross section a shelf with a front side 25, on the opposite side 25a of which, two elastic flexible walls 26 of the same length, extend symmetrically relative to the center of the shelf having at their ends equal semi-oval locking hooks 27, directed in opposite directions relative to each other, while the height at which the lower edges of the semi-oval locking hooks 27 are located relative to the opposite sides The shelves 25a of the connecting inserts 3-3d correspond to the height of the shelves 24 forming the lower mounting grooves 21a of the base frame profile 1a, and the distance between the outer edges of the flexible walls 26 of the connecting inserts 3-3d corresponds to the distance between the ends of two equal shelves 24 directed towards each other the lower mounting groove 21a of the base frame profile 1a, whereby the intersecting base frame profile 1a is connected by pressing the semi-oval locking hooks 27 of the connecting inserts 3-3d into the lower mounting pieces the grooves 21a of the base frame profile 1a, resulting in fixation of the semi-oval locking hooks 27 of the connecting inserts 3-3d for the shelves 24 of the lower mounting groove 21a of the base frame profile 1a by engaging with each other and keeping them in a fixed position due to the elastic properties of the flexible walls with the semi-oval locking hooks 26 connecting inserts 3-3d, taking their original position after hooking semi-oval locking hooks 27 connecting inserts 3-3d for the shelves 24 of the basic frame profile 1a, suspended from the supporting ceiling with the help of suspensions, forming straight and / or curvilinear different-sized, different-shaped, closed along the contour cells of the suspended ceiling system, in which are laid on top and / or suspended from below fastened together by connecting corners 6-6в and connecting brackets 7-7b frame profiles forming rectilinear and curvilinear frame structures 18, covered from the front side with flexible decorative material 9, forming rectilinear and curvilinear décor Willow tensioning panels 18a of various sizes and shapes, and / or suspended to the supporting ceiling overlap independently of each other, while the decorative tensioning panels 18a suspended from the bottom of the cells of the suspended ceiling system closed along the contour of the suspended ceiling system are fixed by means of differently shaped retainers 13- 13g, representing in itself a cross section of a shelf with a face side 25, on the opposite side 25a of which a retaining wall with a rounded face 71, with a retaining shelf 72 on top of it, with This height, on which the lower edges of the holding shelf 72 are located relative to the opposite side 25a of the supporting insert shelf, corresponds to the height of the shelves 24 forming the lower mounting grooves 21a of the base frame profile 1a, and the width of the supporting shelf 72 and the holding wall with rounded edges 71 of the holding inserts 13- 13g corresponds to the distance between the ends of two equal shelves 24, directed towards each other, of the lower mounting groove 21a of the base frame profile 1a, with the fixing of the retaining inserts 13-13zh to the base frame the frame profile 1a is made by inserting the retaining flange 72 into the lower mounting groove 21a of the base frame profile 1a, made with the possibility of turning by 10-170 degrees around the figuratively drawn axis of the retaining wall with rounded edges 71 of the retaining inserts 13-13g, and / or decorative tension panels 18a are fixed in the cells by means of single flexible holding brackets 16 installed along their perimeter in the multifunctional grooves 43a, as a result of which the decorative tension panels 18a are held in the cells due to atsepleniya flexible retaining tabs 83 of the base profile frame 1a from the upper mounting groove 21. 13. The system of PP. 1, 12, characterized in that the holding unit 4b is made of metal billet by stamping and bending. 14. The system of PP. 1, 12, characterized in that the suspension used steel cable. 15. The system of PP. 1, 12, characterized in that the base frame profiles 1a are suspended to the supporting ceiling 88 by means of rigid suspensions 17 consisting of a submersible profile with a mounted shelf 84 and a submersible profile with a retaining shelf 84a interconnected by a segment of the base frame profile 1a, immersed by their submersible profiles 85 in the cavity of a rectangular section 20 of the base frame profile 1a from those fixed by fastening element 94, while the rigid suspension 17 is fixed by the mounted shelf of the submersible profile c mounted shelf 84 to the supporting ceiling 88, and a broadened retaining shelf of the submersible profile with retaining shelf 84a to the upper mounting groove 21 of the base frame profile 1a, and the submersible profile with the retaining shelf 84a before diving into the upper mounting groove 21 of the base frame profile 1a is rotated 90 degrees around the rigid suspension 17 of the axis figuratively drawn along the height, is inserted into it in such a position, and when placed in the upper mounting groove 21 is in the initial position, with the broadened holding schaya shelf profile with immersion retaining flange 84a is positioned across the top of the mounting groove 21 of the base frame profile 1a. 16. The system of PP. 1, 12, characterized in that the spring connecting retainer 2a consists of two identical parts, each of which is a segment of spring connecting retainer for longitudinal connection 2, connected by a jumper 31, which is bent at a desired angle. 17. The system of PP. 1, 12, characterized in that the spring connecting retainer 2b has, at one end of the docking ball 33, connected to the walls 28 of a spring connecting retainer by means of a shelf holding the docking ball 34, the docking ball 33 having at least two projections 34a on its surface, the other end of the spring connecting clamp are two elastic shelves with spherical niches 32, and the distance between the lower points of the spherical niches corresponds to the diameter of the retaining docking ball 33, while The docks of the docking ball 34a are located on the docking ball 33 so that when two composite spring connecting clamps 2b are connected to each other, they do not rotate relative to each other, ensuring the construction of even cell walls of the ceiling system, in which the base frame profiles 1a are always rotated by the lower mounting grooves 21a way down. 18. The system of PP. 1, 12, characterized in that the suspension of the base frame profiles 1a and decorative tension panels 18a to the supporting ceiling overlap 88 is carried out using flexible suspensions 4, consisting of two main parts: flexible traction with the mounted part 4a representing flexible traction with the mounted part 4a, is made of various lengths and widths, consisting of a flexible rod located in the upper part with the mounted part 4a of the mounted part and a flexible tape 36 having a multistage cone-shaped one or two sides This working surface 37, directed at the sharpest angles away from the mounted part, with the ends of the flexible rod 4a, perpendicular to the multistage cone-shaped working surface 37, is the reinforcing guide edge 38 and the retaining block 46 consisting of an adjusting box 40, at least one adjusting lever with locking hook 39, at least one connecting wall of the holding block 41 and reinforced shelves with locking hooks 35, with the adjusting levers with locking hooks 39 slope Yeni at an angle in the direction of the reinforced shelf with locking hooks 35, and the locking hooks of the adjusting levers 39a in a locked state in contact with the multistage cone-shaped working surface 37 of the flexible rod with the mounted part 4a, preventing the retaining block 4b from moving along the flexible rod with the mounted part of the mounted part , 35a. 19. The system of claim. 18, characterized in that the mounted part of the flexible rod with the mounted part 4a is made in the form of a reinforced shelf with locking hooks 35. 20. The system of claim. 18, characterized in that the mounted part of the flexible rod with the mounted part 4a is made in the form of a mounting tab 35a. 21. The system of claim. 18, characterized in that the flexible rod with the mounted part 4a with a reinforced shelf with fixing hooks 35 is fixed to the supporting ceiling 88 by means of an auxiliary lightweight profile 5g fixed to the ceiling by means of fasteners 94, The flexible thrust with mounted part 4a is attached to the auxiliary lightweight profile 5g by immersing its reinforced flange with locking hooks 35 into the docking groove 43 of the auxiliary lightweight profile 5g, as a result those of which the locking hooks 23a of the reinforced shelf with locking hooks 35 of the flexible rod with the mounted part 4a and the locking lugs of the 23 shelves with the locking lugs 22 of the docking groove of the auxiliary lightweight profile 5g are fixed to each other and held in a fixed position due to the elastic properties of the reinforced shelf with the locking hooks 35 of the flexible thrust with mounted part 4A and shelves with locking protrusions 22 docking groove 43 auxiliary lightweight profile 5g, and flexible thrust with mounted part 4a in front of By turning into the docking groove 43 of the auxiliary lightweight profile 5g, it is rotated 90 degrees around the flexible thrust figuratively drawn along the length with the axis mounted part 4a, is inserted into it in this position, and when it hits the docking groove 43 of the auxiliary lightweight profile 5g, it is in the initial position, with This reinforced shelf with locking hooks 35 is located across the docking groove of the auxiliary lightweight profile 5g. 22. The system of claim. 18, characterized in that the flexible rod with the mounted part 4a with the mounting eye 35a is fixed with a supporting ceiling 88 using fastening elements 94. 23. The system of claim. 18, characterized in that the flexible suspensions 4 are made of non-combustible PVC alloys by injection molding. 24. The system of claim. 18, characterized in that the flexible suspensions 4 are made of non-combustible polyamide by injection molding. 25. The system of claim. 18, characterized in that the flexible suspensions 4 are made of non-combustible nylon by injection molding. 26. The system of claim. 18, characterized in that the flexible rod with the mounted part 4a is made of metal strip by stamping and pressing. 27. A method of constructing a system according to claim 1, characterized in that the decorative panels 18a fit into the cells of the system from above, and along the perimeter of the room at a certain height to the supporting walls mounted rectilinear or bent universal frame composite profiles 1 using mounting brackets 11 and / or mounting supports 11a, and depending on the material from which the supporting walls 89 of the room are made, in which the ceiling system is installed, mounting to the wall of mounting brackets 11 and universal frame composite clamps The profile 1 is carried out using fasteners 94, while further segments of the base frame profile 1a of the required size are intersected at intersections with universal frame composite profiles 1 and / or base frame profiles 1a using spring connecting clamps 2-2b by pushing in their fixing hooks 29 , into the upper mounting grooves 21 of the base frame profiles 1a intersecting among themselves and / or with the base frame profiles 1a with the help of connecting inserts 3-3e by pressing in their semi-oval fi into the lower mounting grooves 21a of the base frame profiles 1a intersecting each other, while the base frame profiles 1a are suspended to the supporting ceiling 88 by means of flexible suspensions 4 fixed by the flexible part to be mounted with the mounted part 4a to the supporting ceiling 88, and the mounted part of the reinforced shelf with locking hooks 35 of the holding block 4b to the base frame profile 1a by immersing the reinforced shelf with locking hooks 35 into the upper mounting grooves 21 of the basic frame profile 1a, and / or a rigid suspension 17 fixed by the mounted shelf of the submersible profile with the mounted shelf 84 to the supporting ceiling 88, and by the broadened holding shelf of the submersible profile with the holding shelf 84a to the upper mounting groove 21 of the base frame profile 1a, further on the free the sections of intersecting base frame profiles 1a in the lower mounting grooves 21a of the base frame profiles 1a by pressing are embedded segments of a predetermined length of the retaining front profile 1b and / or light box profile profile 12, thereby forming the niches of the ceiling system cells, while the decorative tension panels 18a are pushed at an angle into the niches of the ceiling system cells at an angle through the frame cell of the suspended ceiling system prepared for its laying, where it is subsequently placed into it and retained in the cell due to the retention on the shelves of the retaining front profiles 1b and / or the connecting inserts 3-3e and / or the lighting composite profiles 12, preventing the decorative tension panels 18a from falling out of the cells. 28. The method according to p. 27, characterized in that the universal frame composite profiles 1, the base frame profiles 1a and decorative tension panels 18a are mounted sequentially, while on the free sides of the perimeter of the decorative tension panel 18a, supported at least one of its sides on the shelf holding the front profile 1b and / or the connecting insert 3-3d and / or the lighting composite profile 12, mounted in the base frame profiles 1a, establish universal frame composite profiles 1, the base frame profiles 1a with 3-3d edinitelnymi inserts and / or lighting the composite profile 12, thereby forming the cell ceiling system. 29. A method of constructing a system according to claim 1, characterized in that the decorative panels 18a are suspended in the cells of the system from below, and along the perimeter of the room, at a certain height, straight or curved universal frame composite profiles 1 or rectilinear or curved base frame profiles 1a are mounted to the supporting walls using mounting brackets 11 and / or mounting supports 11a, if subsequently to the base frame profiles 1a attached to the supporting walls 89, will be attached retaining front profile 16 and / or holding 13-13zh inserts and / or the lighting composite profile 12, as well as the base frame profile 1a without mounting brackets and / or mounting pegs 11a, if the base frame profile 1a is not closed from the bottom by the retaining front profile 1b and / or the holding inserts 13-13ж and / or a lighting composite profile 12, depending on the material from which the supporting walls 89 of the room in which the ceiling system is to be installed are made, mounting to the wall of the mounting brackets 11 and / or base frame profiles 1a is carried out With the help of fasteners 94, further sections of the basic frame profiles 1a of the required size at the intersection points are connected to the basic frame profiles 1a using spring connecting clamps 2-2b by pressing their fixing hooks 29 into the upper mounting grooves 21 of the basic frame profiles that intersect each other 1a, with the base frame profiles 1a being suspended to the supporting ceiling 88 by means of flexible suspensions 4 fixed by the flexible link mounting part 35, 35a mounted oh part 4a to the bearing overlap 88, and the mounted part of the reinforced shelf with locking hooks 35 of the retaining unit 46 to the base frame profile 1a by immersing the reinforced shelf with locking hooks 35 into the upper mounting grooves 21 of the base frame profile 1a, and / or hard hangers 17, fixed mounted shelf submersible profile with mounted shelf 84 to the bearing ceiling 88, and an extended holding shelf submersible profile with retaining shelf 84a to the upper mounting groove 21 of the base frame profile 1a, thereby forming cells of the ceiling system in which decorative tension panels 18a with single flexible holding brackets 16 installed along their perimeter in the multifunctional grooves 43a are suspended, resulting in the decorative tension panels 18a being held in the cells by hooking the flexible holding tabs 83 to base frame

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