CS244462B1 - Folded space cell for building construction - Google Patents

Abstract

The folded spatial cell for building construction consists of a frame structure /3/, a floor structure /1/, a front outer wall /6/ and a front inner wall /7/, built into the front supporting frames /8/, the webs of which /10/ are connected by means of connecting joints /11/ in a detachable and rotatable manner to the longitudinal sides of the floor frame /2/, a floor structure /1/, with the possibility of moving to another pair of connecting joints /11/, located at a distance on these longitudinal sides to create a wing-like overlap between the frame structure /3/ and the floor structure /1/, a panel /15/ and an external connecting panel /16/, provided with non-friction pins /18/ for sliding into the longitudinal sides of the roof frame /4/ and mutually screwed with connecting bolts /17/.

Description

(54) Stacked spatial cell for building buildings

The stacked spatial cell for building construction consists of the roof structure (3),> floor structure (1), of the front exterior wall (6) and of the front interior wall (7), built into the front load-bearing frames (8) whose webs (10) they are detachably and rotatably connected by the joints (11) and the longitudinal side of the non-wound floor (2) floor structure (1), with the possibility of moving to another pair of joints (11), spaced apart on these longitudinal sides to create cantilever The structure (3) and the floor structure (1), the panel (15) and the outer connecting panel (16) provided with tiny pins (18) for sliding into the longitudinal sides of the roof frame (4) and screwed together by the connecting screws (17).

The object of the invention is a stacked spatial cell suitable for building buildings, its vertical wall parts being detachably connected to the horizontal floor and roof parts.

The solid spatial cells have vertical stand sections rigidly attached to the horizontal floor and roof section. They require a space equal to their maximum external dimensions during transport, which makes transport difficult and the transport capacity is not used.

When the individual cell components are folded horizontally or vertically into the sheet, the need for transport space is reduced by at least one half.

The prior art foldable space cell systems, particularly cells with the required room height, have the disadvantages of having to divide the vertical wall sections into two horizontal sections for being able to fold them horizontally or to divide the floor and roof sections into two vertical sections for vertical sections. they can be folded vertically · a

This division reduces spatial rigidity, construction, increases the number of assembly joints, joints and joints, increases the number of parts and also the construction effort. This also increases with the installation of partition bars from the panels during their installation, fastening and joining.

Cells when assembling into a compact object need to be attached to the floor part of some systems, which makes it difficult to manipulate when assembling the cells together. As a rule, the hinged cell walls are located at both ends of a heat-sealable, and do not allow for a variable positioning away from the end of the floor and roof panel.

The drawbacks of these known collapsible spatial cells are overcome by the cell according to the invention, which consists of a roof structure m of a floor structure to which opposite ends a pivot outer wall and a selnl inner wall are rotatably and removably attached by means of connecting joints. is provided with a further pair of joints spaced apart one end of the structure, allowing the Selnl wall to be fitted both at the end and at a distance from the end of the floor structure.

This makes it possible to create a cantilevered overhang of the roof and floor structure for the corridor tract in the building, the basic fastening of the front walls in the collapsed state with the folded cell being in the external joints.

The side wall of the cell is formed by two partition panels, seated on the floor notch frame, to which price awards are supported by the rests on the front walls and are fixed by means of guiding bars of the uprights of the front bearing frames

The number of mounting sprays and joints in the assembled cell is reduced by the integrity of the front walls and the assembly of the side walls of the DC with two partition panels and the connecting elements.

The assembled cell can be attached from above with the suspension elements attached to the roof support frame of the roof structure which is detachably attached to the front load-bearing frames, which is advantageous when building the building.

Stacked spatial cells for building buildings are produced in the required prefabrication stage. As a rule, the walls, floor, ceiling and roof are finished, prefabricated joinery products, parts of the electrical installation, etc. are built into the walls. ·

The stacked spatial cell for building buildings according to the invention is schematically shown in the accompanying drawings, wherein Fig. 1 shows a perspective view of an exploded spatial cell β through the placement of Selnlch walls and the shapes of the individual parts of the cell. Fig. 3 shows a horizontal cross-section of the partition wall structure, Fig. 4 shows the positioning of the partition wall with the connecting member between the longitudinal beams of the floor and roof support frame, Fig. 5 shows a longitudinal section of the floor panel showing the composition and erection 6 shows a cross-section of a composite cell.

The stacked spatial cell consists of a roof panel, a floor panel to which it is detachably and rotatably attached to the folding walls which, when erected, are fixed to the roof panel and to the mountable partition or gable walls on the longitudinal sides of the cell.

The fertile rectangular floor portion is formed by a floor structure χ incorporated in the peripheral floor support frame g, to whose longitudinal sides the legs 1 & of the front support frames 8 are fixed to the longitudinal sides by means of connecting joints XX, in which the external exterior wall is fixed. or Selective inner wall 2 ·

The support frame g, in which the front outer wall 6 or the selective inner wall 2, is fixed, is attached to the longitudinal sides of the floor support frame g and the roof support frame 8 by erection by screws 13. The two legs 10 of the Selnlch support frames 8 are connected to each other connecting bars 2 ·

Connecting joint XX, allowing the temporary or permanent fixing, erection or tilting of the front support frames g, in which the front outer wall g or front inner wall 2 is fixed, consists of meshes 12 »one of which is always fixed at the lower inner corner of the web and on top of longitudinal sides of floor frame 2 *

The partition wall formed by the partition panels X4, between which the inner connecting member 15 and the outer connecting member 16 and interconnected by the connecting screws 12, is interposed between the longitudinal beam of the floor support frame g, provided with supports 12, and the longitudinal beam of the roof frame. 6, provided with holes for the non-slip pins 18 of the outer connector Xg.

In the vertical direction, the partition wall is seated between the uprights 10 of the front supporting frames g, where the rails 14 are fixed to the edges of the uprights 10 by means of guide rails 20 firmly attached to the edges 10 and fitting into the grooves in the vertical edges of the partition panels.

When the cell is folded, the end faces g, 2 are folded by means of the joints U into the horizontal position, whereby the partition panels 11, the inner connecting piece 16, the outer connecting piece 16 and the necessary assembly material are inserted into the receiving space gx.

The roof structure g is placed on the folded end walls g, 2 s and the bundle is secured with the transport couplings gg. Suspension elements g are used for handling the composite cell sheet as well as for handling the cell after it has been assembled into a solid spatial element, into which the lifting means of the lifting devices are clamped.

When assembling the composite cell into a solid spatial element, the roof structure 3 is removed after releasing the transport connectors gg. the front outer wall g1 the front inner wall 2 ^{ae is} erected around the joints 11 and the front support frames g are connected to the longitudinal sides of the floor support frame g by means of screws Xg.

If a cantilevered overlap of the floor structure X and the roof structure g is to be formed for the cell passage, the hinged front inner wall 2 is released from the joints 11.

positioned at the upper edges of the floor support frame 6 and displaces ee into the joints 11 located at the upper edges of the floor support frame 2 at a desired distance from its end.

In this position, the Selective inner wall 2 is erected and the Selective support rim g is attached to the longitudinal sides of the floor support frame 6 by means of the screws 22.

The roof structure J is mounted on the erected end walls 4, 2 and the legs 10 of the front support frames 4 are connected to the longitudinal sides of the collision support frame 4 by means of screws 12.

The partition panels 14 are fitted into the half-grooves formed on the longitudinal sides of the floor structure 1 and the roof of the structure 2, are fitted tightly to the webs 10 and are slotted onto the guide rails 11.

The outer connecting piece JA is mounted in the gap between the two partition panels JA, the male pins Ifi of this outer connecting piece JA are inserted into the holes in the lower edge of the longitudinal sides of the central support frame 4, the inner connecting piece JA and both JA, JA ee By means of connecting screws 12 they are screwed together, with their edges gripping the vertical edges of the partition panels JA provided with semicutters and joining them together.

Claims (2)

SUBJECT OF THE INVENTION CLAIMS 1. A stacked building cell consisting of a floor structure, a roof structure, a front exterior wall and a front interior wall, the two front walls being hinged around joints located near the ends of the floor support frame of the floor construction, characterized in that the floor structure (1) is provided with a further pair of joints (11) spaced from one end of the floor support frame (2) to secure one of the end walls (6, 7). 2. The composite spatial cell for building of buildings according to claim 1, characterized in that at least one partition wall consisting of two partition panels (14), which are vertical, is located between the front outer wall (6) and the front inner wall (7). grooved edges, adjoining the webs (10) of the front supporting frames (6) of the end walls (6, 7), provided with guide rails (20), interlocking in the grooves and connected to each other by an external connecting member (16) provided at the upper end by means of pegs (18) engaging in holes in the lower edge of the longitudinal side of the guard frame (4), and an inner connecting member (15) which is bolted to the outer connecting member (16) by connecting bolts (17), the fasteners (15, 16) after being screwed together by their edges abut the vertical edges of the partition panels (14), provided with semi-grooves, and the lower edges of the The metal panels (14) are mounted on the upper longitudinal side of the floor support frame (2) and are fastened to it by supports (19) attached to the outside longitudinal side of the floor frame (2).