FR3006350A1 - BUILDING BLOCKS OF INSULATING MATERIALS PROVIDING THERMAL INSULATION AND CONNECTION BETWEEN FLOORS AND WALLS OF INNER FINISHINGS AND EXTERIOR WALLS OF BUILDINGS - Google Patents

Abstract

Building blocks made of thermally insulating materials interposed between the floors and the outer walls in the construction of buildings. Positioned vertically, they are interposed between the inner walls of walls and the outer walls. They are used as thermal breakers. The invention relates to the thermal insulation of the connection of the slabs or walls and the outer walls of individual houses, residential buildings and industrial buildings. Slabs on slab are insulated like floors. Insulating blocks (1) or (2) provided with their covers (10) placed side by side on the periphery of the floors (11) form a thermally insulating belt between the floors (11) and the outer walls (3) and (13) . It is the same for the vertical blocks (14) between the slitting walls (15) and the outer walls (3). Sleeves (5) of insulating material, integral blocks, through the blocks and allow the passage of the frames of the outer walls. Channels (9) and (18) arranged in the blocks allow the reinforcements of the floors or the walls of slit to enclose the frames of the outer walls.

Description

-1- 1.1. The technical problem to be solved concerns the thermal insulation of floors and walls of conductive material, particularly reinforced or prestressed concrete used in the construction of individual houses, residential buildings and industrial buildings. Floors can be slabs placed on the floor. The assemblies of walls or floors and external walls are made of thermally conductive materials, particularly reinforced concrete. The interior floors or walls connected to the external walls constitute thermal bridges allowing the circulation of calories from the inside of the building to the outside and vice versa. The inner face of the outer walls is insulated by insulating panels attached to these walls. 1.2. To date, existing solutions consist of: Insulating buildings from the outside by gluing multilayer insulation on the outer walls. Insulate buildings with insulated curtain walls. Partially isolate the floors by positioning thermal breakers at the periphery of the floors; the breakers are traversed by the support elements which constitute thermal bridges. Insulate floors by resting them on cellular concrete walls with insulating planets at the periphery. 2. Proposed invention 2.1. Blocks of thermally insulating material located at the junction between the slabs or floors and the support walls. These blocks arranged side by side on the periphery of the floors constitute a most insulating belt. These blocks, C profile open towards the interior of the building, serve as a thermal breaker. -2- The lower part of the block rests on the lower walls, the autonomous upper part supports the upper walls. The vertical part attached to the lower part, isolates the floors from the outside of the buildings. Reinforced concrete floors reinforced or not by beams rely on the lower part of the block. The reinforcement of the external wall cladding passes vertically through the blocks in insulated thermally insulated sheaths of the lower part. The horizontal reinforcements of the floor, in the form of a loop, housed in a channel located between the sleeves and the vertical part, enclose the sleeves of the frames of the chaining. The assembly constitutes a mechanical assembly or "keying" whose frames are in contact via the insulating material; this is the thermal breaker. The lower part of the block can be hollow and open downwards, this channel can accommodate the frame of the wall chaining and facilitates the establishment of vertical frames that cross the blocks. The insulating blocks can be made of various insulating materials: cellular concrete, insulating concrete using thermally insulating aggregates such as pozzolana, - insulating concrete using hemp thermally insulating fibers, - hollow material of the red brick type, - material synthetic material of honeycomb type synthetic material, of synthetic material foam, of agglomerated wood or not, 2.2. variants of the invention envisaged: blocks for the isolation of the angles of the floors and passages of the seismic armatures. - blocks for the insulation of "cast-in-place" reinforced concrete floors. - blocks for the insulation of slabs cast on insulator on the ground. - appropriately sized blocks used for the insulation of girder and slab floors, hollow core concrete slabs, reinforced or prestressed concrete slab floors. -3- - Special blocks, made in one piece, to isolate vertically the walls of slit related to the external walls. - blocks for the insulation of shuttering floors or metal beams. 2.3 The accompanying drawings illustrate the invention: FIG. 1 represents a schematic perspective view of a building showing the situation of the blocks of the invention. - Figure 2 shows a perspective view of a flat bottom floor insulation block and cover. - Figure 3 shows a perspective view of a hollow bottom floor insulation block and cover. - Figure 4 shows a perspective view of a vertical block for the wall insulation wall. - Figure 5 shows a perspective view of a block for the isolation of the floor angles. - Figure 6 shows a perspective view of a block for the isolation of seismic reinforcement of the facade walls. 2.4. DETAILED DESCRIPTION Referring to Figure 1 we see where are the insulating blocks object of the invention. The insulation blocks (1 and 2) of the floors, with flat bottom (1) or hollow (2), rest on the outer walls (3). The reinforcements (4) waiting in the walls pass through the blocks (1 and 2) inside the sleeves (5). The reinforcements (6) and the beams (7) of the floor (11) are housed inside the channels (9). The concrete slab (8) of the floor (11) covers the reinforcements (6) and the beams (7) and drowns the channels (9). The insulating covers (10) are placed and glued on the blocks (1 and 2). Additional armatures (12) are placed on the covers (10) in connection with the armatures (4) on hold. The upper outer walls (13) are built on the insulating covers (10). The insulation blocks (14) of the partition walls (15) are positioned vertically between two portions of the outer walls (3). Horizontal reinforcements (16) pass through the vertical blocks (14). Reinforcements (17) housed in the channels (18) connect the slit walls (15) and the outer walls (3). Angle insulating blocks (19) insulate the floor (11) in the corners. They allow the passage of the angle or seismic reinforcements (23). Intermediate insulating blocks (21) ensure the passage of the seismic armatures of the facades. Insulating plates (24) adhered to the inside of external walls (3) and (13) complete the building insulation. Figure 2 shows in detail a flat bottom block (1) and its cover (10). The block (1) of parallelepiped outer shape consists of a flat bottom, a vertical wall and a sleeve (5) with multiple orifices; these three parts limit an interior void to the block and form a channel (9). The lid (10) of parallelepiped outer shape is pierced with orifices to the dimensions of those of the block. The block (1) and the cover (10) are assembled by superposition and gluing to form the insulating block flat bottom. The flat bottom, the vertical wall and the cover form the C-shape. FIG. 3 shows in detail a hollow bottom block (2) and its cover (10). The upper parts of the block (2) are identical in shape to the block (1); the hollow bottom is open downwards. The orifices pierced in the sleeve (5) open into the hollow. The lid (10) is identical to that of the flat-bottomed block (1). The assembly of the block (2) and the cover (10) constitute a hollow bottom block. FIG. 4 shows in detail a block (14) of vertical insulation of the slitting walls. The block (14) of parallelepiped outer shape consists of three vertical walls; the two opposite walls are connected by a sheath (5) with multiple orifices; the orifices pass through the block from one side to the other. The three walls and the sheath limit an interior void to the block and form a channel (18). Figure 5 shows in detail a block (19) and an insulation block (20) of the floor angles. The block (19) of parallelepiped outer shape consists of four vertical walls. The four walls limit an interior void to the open block on the top and bottom of the block. One of the outer corners of the block and recessed to profile with the blocks (1) and (2) of insulation floors. The block (20) has the two right-angled walls adjoining the crenellated recessed angle at the bottom. FIG. 6 shows in detail a block (22) and a block (21) for isolating the seismic reinforcement of the facades. The block (22) of parallelepiped outer shape consists of four vertical walls. The four walls limit an interior void to the open block on the top and bottom of the block. The block (21) has two opposed walls crenellated at the bottom.

Claims (7)

CLAIMS1) Blocks connecting the floor and exterior wall of buildings characterized by their C-shaped made of insulating material constituting a thermal breaker. 2) Blocks pierced with orifices allowing the mechanical assembly of the floors and the external walls without thermal bridge. 3) Blocks according to claim 1 consisting of two parts, a lower part and an upper part or cover. 4) Blocks bottom according to claims 1, 2 and 3 characterized by at least one sheath pierced with vertical holes allowing the passage of the reinforcements of the load-bearing walls and a horizontal channel allowing the passage of the reinforcements of the floor. 5) Blocks lids according to claim 1, 2 and 3 characterized by their autonomy for mounting the reinforcements of the floor and the placement of concrete floor. 6) Low blocks according to claims 1, 2 and 3 characterized by a lower hollow face open on the bottom serving formwork chaining the concrete wall. 7) Blocks according to claims 1 and 2 positioned vertically and allowing the assembly without thermal bridge vertical interior walls and exterior walls.