FR2593844A1 - Insulating interjoist elements and corresponding floors - Google Patents

Abstract

The invention relates to a strong and insulating interjoist element placed between concrete floor joists. It comprises a strong concrete body 1 provided with dovetails 8, which is assembled with an insulating panel 4, having a length which is a multiple of that of the strong body, and with complementary strong bodies 2, which are not connected to the insulating panel, are not as high and are placed over the dovetails. Application to insulating floors for a crawl space, basement top and roof decks.

Description

 The subject of the present invention is a resistant and insulating composite interjoist and the corresponding beams of various types of beams.

 Currently, the manufacturers of expanded polystyrene interjoists (EPS) have captured the market for insulation of crawlspace and high-basement floors, because the manufacturers of concrete interjoists only have 80 so-called lutions with polystyrene heightening, (PSE bloo placed on the concrete entre-entrees), with serious thermal bridges. But the solutions of some of you in P.S.E. are not optimal, because to respect the safety rules of the contractor, (movement of workers on the interjoists) it is necessary to increase the density of the P.S.E. in order to get resistance. I1 results in a weight of P.S.E. unnecessarily high. In addition, on these interjoists you have to pour 5 om of concrete instead of 4 cm on the concrete interjoists, ie 1 m3 of useless concrete per average pavilion, oe which penalizes the price and increases the work of the contractor.

 It is therefore a first object of the invention to propose an interjoist insulating composite concrete and polystyrene, economical. It is also an object of the invention to propose a so-called interjoist with an incorporated compression table saving the concrete to be poured on the construction site. It is also another goal to offer a "pre-dressed" interjoist on the underside, for the upper floors either for aesthetic purposes or for fire protection.

 The interjoist combines with a concrete body, of suitable contours, an insulating plate, generally made of P.S.E. or any other rigid insulation, of almost constant thickness, optimizing the performance of the insulation, provided with male or female dovetails, collaborating with dovetails provided under the concrete body. The body can also be ceramic.

 An assembly of concrete blocks with insulating plates provided with dovetails is already known, for composite blocks for walls. But in the present invention, the insulating plate opens a MULTIPLE ceiling surface of the surface of the unitary concrete interjoist associated by the dovetails: the insulating plate can be 60 to 100 cm in length in the direction of the trowels, the concrete between having only 20 om. For example, a 60X60 plate will be fixed on a single central interjoist, by two dovetails, the two side interjoists placed eneuite being without connection with the plate.

The implementation is thus very easy.

 The concrete interjoist may include one or two dovetails, male or female, the insulating plate having the corresponding tail or tail.

 For a floor K coefficient of the order of 0.5 W / m2 OC, the P.S.E. known weights of 2.1 to 2.2 kg / m2. according to the invention, it suffices from 1.2 to 1.3 kg / m2 of P.S.s. The plate can be dressed in the factory with a glued facing and mechanically secured to the concrete body.

Other embodiments and advantages of the solution proposed by the invention will emerge from the description which follows and with reference to the drawings in which
- Figure 1 is a sectional view of the floor, in line with a central interjoist provided with dovetails.

 - Figure 2 is a partial section to the right of the areas comprising the interjoists without dovetails, of reduced height. On the right, variant with thicker interjoists, known as incorporated compression tables.

 - Figure 3 is a model of an insulating plate in perspective.

 - Figure 4 is a perspective of the assembly entrevous plus plate.

 - Figures 5 and 6 show an alternative embodiment of the interjoist and plate assembly. Figure 6 shows the fixing of a lower covering.

 In the embodiment shown in FIGS. 1 and 2, the floor comprises beams (3) of reinforced or prestressed concrete, with a heel (3a) on which the interjoists (1) rest, by means of the fins (1d ) and (lg). The interjoist comprises conventional cells (la), (lo). Its length in the direction of the beams is 20 cm. On the underside, the interjoist has two female dovetails (lq) of the same section, with a horizontal upper faoe, (1h), two inclined faces (li) and (1d), and 4 small vertical connecting faces. with the horizontal faces (lh) s (lm), (ln).

The concrete interjoist (2), figure 2, includes the fin mimes (2d), (2g), and the Bei. upper contour. It is less thick because its underside (2f), plane is at the level of the upper faoe (8e) of the dovetails (8) of the plate (4), deviates further. I1 does not have dovetails on the underside, are born laterally centering rods such as (2m). The interjoist (20) is the so-called T.C.I. without casting table, in between (1) or (2).

The insulating plate (4), generally made of P.S.E. molded, a length corresponding to 3 interjoists, or 60 om. Its cross section, (fig. 3 and 4.), comprises two mule dovetails (8), ruling over two thirds of the length; the last third only includes reduced bars (10). If we refer to fig. 1, the plate (4) comprises a flat sub-face (4a), capable of possibly receiving a coating (R), an upper face (4b), which has integral volumes coming from molding with the plate; two male dovetails (8), which will cooperate with the female dovetails (lq) by their inclined faces (8i), (8j). the bosses (11a), (11b), (11c), (11d), ensure by their upper faces the oontaot with the sub-marks of the hole in (lm), (ln). To facilitate assembly by ououliasage, bosses (11) have at their ends an inclined plane such as (lli). Under the beam, the upper face (4p) may be lower than the face (4b).

 the vertical faces of the plate (4v), (4w), oomportent parallel to the beams a "thermal" interlocking ensuring the airtightness of the under faoe. The vertical perpendicular faces (4z) are either planar, or with an interlocking not shown. If we refer to fig. 2, the plate no longer has here on the surface only two integral volumes (10), bars in the form of a dovetail of section smaller than that of the tail (8). This shape improves the storming with the concrete of the chase at the end of the span.

 In another embodiment, (FIGS. 5 and 6), use is made of an interjoist (100) having a flat underside (100c) provided with two offset male dovetails (100a) and (100b). This interjoist can between used alone, or associated with interjoists of type (2), which have the same outline as him, but are deprived of dovetails. The insulating plate (400) has a uniform seotion over its entire length. It can thus be manufactured by milling in a bloo by P. S. E.

Its cross section includes two female dovetails (400a), (400b), and two eccentric recesses (4000), (400d). The rest of the outline is identical to the previous case. Figure 5 shows a interjoist (100) assembled mechanically on a plate (400), by rolling, to the desired position, for example at the center of a plate of 60 om of long. Figure 6 shows the same interjoist (100), placed "t0te-bSohe", or turned 180 seen in plan. Thus, the eccentric dovetails (100a), (100b) are positioned in the recesses (400c), (400d). You can also place a type (2) interjoist. For example, a plate (400) 60 cm long will be fitted in its center with a interjoist (100), threaded on the dovetails. this composite is placed on the beams by pivoting then laterally two interjoists (100), head to tail are simply installed, (or two interjoists type 2), without connection with the plate (400). Behind a plate (400) 80 or 100 cm long can be equipped with two interjoists (100), threaded on the dovetails, and spaced 40 cm apart, corresponding to two interjoists type (100) or (2); there is thus a great flexibility of implementation.

Case of sub-faces brought back to the factory:
Cover plates (R) are glued to the EPS in the factory. In addition, they can be mechanically fixed to the concrete interjoist at soft points such as (13), fig 3, centered on the plate, or more than 2 points. In the case of a compressed plasterboard called PPAC two screws (14) enclose two plates (15) made of steel, placed on the dovetails (8) and the plate (R). The plate (R) is integral with the interjoist (1) oar the returns (15r) of the plate (15) rest on the inclined faces (li), (lj) of the interjoist. The plate (15) has a length limited to a few centimeters. In the case of an ordinary plasterboard, the self-tapping screw (14 *) is screwed from bottom to top, the thread cooperating with the plate (15a). It should be noted that this type of fixing can be moved to the site if necessary, in particular to use the falls (drops of 20 or 30 om long with dovetails, for example.

In the case of Figure 6, the life (140) is arranged type down, the cooperating net with a metal tab (150), comprising two horizontal parts (150a) and (150b), connected by a vertical branch (150c ). this tab is placed at the bottom of the dovetail (400a) or (400d), the upper wing (150a) penetrates into the alveolus (100d) of the interjoist (100), when the latter is pushed into abutment Up to the vertical branch (1500). After installation of other type interjoists (2) e.g. the legs are blocked. (see fig. 6 bis.)
The work is traditional: the contractor receives packets of plates and mixed pallets of concrete interjoists types (1) and (2), including for example. 4 type interjoists (1) for 7 type interjoists (2). For the second variant, type inter-pallets (100) and type inter-pallets (2). Given the span ends, it was statistically determined that, with the cuts, (where the span is not multiple of 60 cm), the proportion 4 for 7 of the two types was needed. It will be noted that the type (1) is intended to be fitted on the tails (8), or simply placed on the bars (10) against the type interjoist (2) can be placed either on (8) or on (10).

The type (100) can be placed or put on any abscissa of the plate, thanks to the eccentricity of the tails. The insulating plates are all identical. After laying the beams at the center distance, we assemble a type interjoist (1) on a plate (4), we simply thread it according to the arrow F or F ', fig.3.

There is thus an interjoist centered on a plate, which is posed in a known manner by pivoting, the tongue (4p) passing under the beam) the shoring is carried out in a conventional manner with a flat plank and a block of plywood in the
Play between beam and tongue (4p), and aela to the right of the forestay only.

 After placing a set of oomposites, complete with type (1) or (2) interjoists in the remaining locations. At the end of the span, the plate of P.S.E. s if there is 20 cm left, one third of a plate with dovetail is available (8 days, assembled on a standard interjoist (1). If there is between 20 and 40 om, only one standard interjoist ( 1) on the Ooupéo plate to length, and we cast a "full strip" of less than 20 om near the support at the same time as the chaining. If less than 20 om are left, we cut the previous polystyrene plate 40 om long, and we fall back on the previous oas. The free dovetails (10) are used to hang the plate (4) on the concrete poured on site ((5). type (100), one has either a center centered on a plate (400) 60 om long, or two side interjoists on a plate 80 or 100 cm long. The distance between the two interjoists will be preferably 40 om. This solution is advantageous in the case of a covering (R), since four hangers (150) can be placed per plate, covering an area of 0.48 to 0.60 m2, Fig. 6 bis.

 In another embodiment, fig. 7, there are provided insulating plates (4) provided with two dovetails (8a), (8b), of width (8k), such as the shape of the section (8z ) between these two dovetails is equal to the elementary section of the tail. One can then advantageously obtain such plates (4e), (4f), fig.

7, by cutting according to a technique known for the blocks of P. S E.

by means of a heated wire (30) which describes the continuous line T.

The drop of material on decoupling is almost zero, the volume to be transported reduced and the dovetails protected before use. The plates (4e), (4f) thus nested head to tail are separated by sliding; assembly is carried out with interjoists of type (1) having the corresponding dovetails (lq).

Claims (9)

 1. composite interjoist for joist floors, characterized in that it comprises: a resistant upper element (1), made of concrete or ceramic, a thermal insulating lower element (4), assembled by dovetails (8) on the resistant element, said lower insulating element being larger in two plan dimensions than one resistant upper element; complementary resistant elements (2), for example two in number for an element (1), devoid of dovetails, placed between the elements (1) without connection with the insulating element (4).  2. composite interjoist according to claim 1, characterized in that the lower part (4) has a length multiple of the length of the upper element such), for example triple or quadruple.  3. composite interjoist according to claims 1 and 2 characterized in that the upper element (1) is centered on the lower element (4) of triple length.  4. composite interjoist according to claims 1 and 2, characterized in that the upper element (1) is eccentric with respect to the error element (4).  5. interjoists composite according to claims 1 and 2 oaraoterized in oe that the lower insulating element (400) receives several upper elements (100), for example two, not joined, and assembled by dovetails.  6. composite interjoist according to claims 1 and 2, characterized in that the lower insulating element (4) comprises dovetails (8) which do not prevail over part of the length of the element, eg. the third, thus allowing the installation of an element (1) without connection with the insulating element (4).  7. composite interjoists according to claims 1 and 2 characterized in that the upper asymmetrical element (zoo) is provided with dovetails mules (îooa) and (lOOb), offset, ensuring assembly with the insulating plate ( 400) in one direction, and the non-assembly when it is turned half a turn horizontally.  8. interjoists according to claims 1 to 4, characterized in that the insulating element (4) comprises tails (8a), (8b) forming between them a section identical to theirs, allowing its manufacture by continuous cutting by hot wire , in a block of commercial insulation.  9. interjoists according to claims 1 i8, characterized in that it comprises a safety device for hanging a lower covering (R) to the resistant upper element (1) or (100), by means of screws (14) or (140) and metal plates (15) or (150), collaborating with the dovetails (lq) of the interjoist (1) or the lower parot of the element (100).