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EP 2 772 595 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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13.04.2016 Bulletin 2016/15 |
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Date of filing: 24.02.2014 |
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International Patent Classification (IPC):
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Clamp for securing metal sheets to beams of roofing systems, roofs and the like with
joint for joining together base surface and bearing surface freely slidable in the
longitudinal direction
Klemme zur befestigung von metallischen platten an Balken eines Dachsystems, eines
Dachs oder ähnlichem mit einer Fuge zur in der longitudinaler Richtung, frei verschiebbaren
Verbindung einer Basisfläche mit einer Lagerfläche
Pince pour sécuriser des feuillets métalliques aux poutres de systèmes de toiture,
toitures et similaires avec un joint permettant la jonction d'une surface de base
et d'une surface de support librement glissante dans la direction longitudinale
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Designated Contracting States: |
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AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL
NO PL PT RO RS SE SI SK SM TR |
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Priority: |
28.02.2013 IT MI20130293
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Date of publication of application: |
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03.09.2014 Bulletin 2014/36 |
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Proprietor: Schatzer Dachtechnik S.r.l. |
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39042 Bressanone (BZ) (IT) |
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Inventor: |
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- Schatzer, Alois
39040 Bressanone (BZ) (IT)
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Representative: Raimondi, Margherita |
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Dott. Ing. Prof. Alfredo Raimondi S.r.l.,
Piazzale le Cadorna, 15 20123 Milano 20123 Milano (IT) |
(56) |
References cited: :
EP-A2- 1 249 556 US-A- 4 034 532 US-B1- 7 574 839
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WO-A2-98/59130 US-A1- 2009 044 477 US-B1- 7 730 694
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] The present invention relates to a clamp for securing metal sheets to beams of roofing
systems, roofs and the like.
[0002] In the technical rector of roofing for buildings it is known to construct roofs using
metal sheets which are arranged on top of the wooden roof beams to which they are
fixed by means of positioning brackets, being then seamed together longitudinally
in order to create a fastening in the transverse and vertical direction - for preventing
for example a wind suction effect - from the roof ridge to the free edge or guttering
of the roof.
[0003] Also known are special L-shaped clips or clamps designed to allow fixing, by means
of nailing, of the metal sheets both to an associated support beam (rafters arranged
along the slope of the roof hip) and to a corresponding stringer connected to the
rafters, where fixing of the metal sheet is performed; once fixed in position, the
sheets are then definitively seamed together.
[0005] Although performing their function, the clips or clamps of the known type have a
number of drawbacks arising from the fact securing thereof to the beams and the stringers
is performed using nail guns which do not allow correct positioning of the clamp which
remains fixed in a manner not perfectly at right angles to and aligned with the beams
and/or stringers, resulting in the roof making a bothersome noise when temperature
variations during the summer and winter cause expansion and contraction of the metal
sheet.
[0006] In addition, fixing of the two parts to stationary structures does not allow compensation
of the expansion of the metal sheets due to the temperature variations and with time
said expansion causes damage to the roofing resulting in noisiness and leaks.
[0007] The technical problem which is posed therefore is that of providing a clamp for securing
metal sheets for roofing, able to allow improved centring, relative alignment and
perpendicular arrangement with respect to the support beams during positioning and
fixing of the clamp and at the same time able to compensate for the relative movements
of the metal sheets due to the thermal expansion thereof, in order to prevent noisiness
of the roof and damage thereto resulting from the movements of the metal sheet in
the longitudinal and transverse direction.
[0008] In connection with this problem it is also required that the clamp should allow fixing
by means of screws at a speed which is equivalent to that of nailing and which is
easy and inexpensive to produce and assemble.
[0009] These results are achieved according to the present invention by a clamp for securing
metal sheets to beams of roofing systems, roofs and the like according to the characteristic
features of Claim 1.
[0010] Such a securing clamp according to the invention comprises a horizontal base surface
in which at least two through-holes are formed, and a vertical bearing surface, substantially
perpendicular to the base surface, with raised transverse ribs and at least one longitudinal
raised rib being formed in the base surface; fastening together of the base surface
and the bearing surface is performed by means of a joint, between a horizontal edge
of the base surface and a horizontal foot of the vertical surface, which ensures at
least one degree of freedom for the relative sliding movement of the base surface
and bearing surface in the longitudinal direction, and the two respective bottom sides
of the base surface and foot of the bearing surface, which are intended to come into
contact with the stringer of the roof, are coplanar with each other once joining has
been performed. Preferably, joining together between the base surface and the bearing
surface is performed between folded edges thereof lying in planes substantially parallel
to the base surface.
[0011] In a preferred embodiment, the edge of the base surface intended to be joined to
the horizontal foot of the bearing surface is shaped with a first fold which positions
the top surface of the said edge at a height in the vertical direction Z-Z greater
than that of the rest of the surface and with a second fold which positions the free
end portion of the edge underneath and substantially parallel to the latter, forming
a seat in the form of an inverted C extending in the longitudinal direction X-X and
open in the transverse direction Y-Y on the opposite side to the side directed towards
the bearing surface and designed to receive the horizontal foot of the vertical surface
for joining together of the two surfaces; in this connection, the horizontal foot
of the vertical bearing surface may have a first fold and a second fold such as to
determine a C-shaped form of the foot arranged opposite the inverted C form of the
edge of the base surface and with arms substantially parallel to the said base surface.
According to further preferred variants which may be implemented singly or in combination:
- each transverse rib has an end directed towards the vertical bearing surface with
a bottom seat suitable for engagement with a fold of the raised edge of the base surface;
- the depth of the seat in the vertical direction is such as to determine the coplanar
arrangement of the bottom side thereof with the top side of the base surface;
- at least one of said transverse ribs is arranged between each end hole and the corresponding
transverse side edge; and in that
- at least two of said transverse ribs are connected, at their end directed towards
the free edge of the base surface, to the rib extending in the longitudinal direction
X-X.
[0012] Preferably, each hole is situated between two respective raised ribs extending in
the transverse direction Y-Y, and the clamp may also have a free end of the vertical
side having a first folded-back portion substantially parallel to the base surface.
Each folded-back portion may in turn have a free end folded back towards the bearing
surface at an angle of between 115° and 165° and preferably between 135° and 145°.
[0013] Advantageously, the free edge of the vertical surface, opposite to the edge for joining
together with the base surface, has recesses arranged between first folded-back portions
and substantially parallel to the transverse direction Y-Y.
[0014] Preferably, in a clamp according to the invention the base surface can be joined
to bearing surfaces having different dimensions in the vertical direction Z-Z.
[0015] A particularly advantageous embodiment is one in which the vertical bearing surface
has a constant thickness equivalent to the thickness of the metal sheet from which
it is formed.
[0016] Further details may be obtained from the following description of a non-limiting
example of embodiment of the subject of the present invention, provided with reference
to the accompanying drawings, in which:
Figure 1: shows an exploded perspective view of a clamp according to the present invention;
Figure 2: shows a perspective view of the clamp according to Fig. 1 in the assembled condition;
Figure 3: shows a schematic cross-section of the clamp according to the invention during mounting
on a roof and
Figure 4: shows a schematic cross-section of the clamp according to Fig. 4 3 in the mounted and closed condition.
[0017] As shown and assuming solely for the sake of simpler description and without a limiting
meaning a set of three reference axes with directions defined independently of the
orientation of the figures, i.e. longitudinal direction X-X conventionally referred
to as "length" of the clamp, transverse direction "Y-Y" conventionally referred to
as "width" of the clamp, and vertical direction Z-Z perpendicular to the other two
directions, an L-shaped clamp according to the invention comprises essentially:
- a base surface 10, with a lengthwise dimension extending in the longitudinal direction
X-X and widthwise dimension extending in the transverse direction Y-Y and also defined
below as conventionally "horizontal".
- a bearing surface 20, which extends parallel to the vertical direction Z-Z, substantially
perpendicular to the surface 10, and the dimension of which in the longitudinal direction
X-X corresponds to the length of the base surface 10, which can be joined together
as will be described more clearly below.
[0018] In greater detail:
the top side of the horizontal base surface 10 has, formed therein, first holes 11
arranged in the proximity of the opposite transverse side edges 10a,10b of the base
surface 10.
[0019] Between the two first end holes 11 and in alignment therewith the base surface 10
has at least one third hole 12 situated between the two said holes 11.
[0020] The horizontal edge 15 of the base surface 10 intended to be joined together with
the vertical bearing surface 20 is conveniently shaped as a first fold 15a which positions
the top side of the said edge 15 at a height in the vertical direction Z-Z greater
than the height of the remainder of the surface 10; beyond this first fold 15a the
free joining edge 15 has a second fold 15b which positions the free end portion 16
of the edge 15 below and substantially parallel to the latter, forming a seat in the
form of an inverted C 17 extending in the longitudinal direction X-X and open the
transverse direction Y-Y on the opposite side to that directed towards the bearing
surface 20, being instead closed in the transverse direction Y-Y on the side thereof
directed towards the bearing surface 20. As will become clear below, once the clamp
has been assembled, this C-shaped seat 17 is designed to receive a horizontal foot
of the bearing surface 20, for joining together of the two surfaces.
[0021] Each hole 11 and the at least one hole 12 is preferably situated between two respective
raised ribs 18a extending in the transverse direction Y-Y and connected at the end
directed towards the free edge 10c opposite to the joining edge of the base surface
10 to a rib 18b extending in the longitudinal direction. One of the said transverse
ribs 18a therefore extends between each end hole 11 and the respective transverse
side edge 10a,10b, preferably at a certain distance from the said edge 10a, 10b.
[0022] Each rib 18a has an end directed towards the vertical bearing surface 20 with a bottom
seat 18c suitable for engagement with the fold 15a of the raised edge 15 of the base
surface 10; the depth in the vertical direction of the seat 18c is such as to ensure
the coplanar arrangement of the bottom side thereof with the top side of the base
surface 15.
[0023] The vertical bearing surface 20 has in turn a foot 21 with a lengthwise dimension
extending in the longitudinal direction X-X and widthwise dimension extending in the
transverse direction Y-Y (below also conventionally defined as "horizontal direction")
which has a first fold 21a and a second fold 21b such as to determine a C-shaped form
of the foot arranged opposite the inverted C form of the edge 15 of the base surface
10.
[0024] The C-shaped foot preferably has dimensions such that:
- the top arm may be inserted inside the seat 17, and
- once insertion has been performed, the bottom side of the foot 21 is coplanar with
the bottom side of the base surface 10.
[0025] As shown, it is thus possible to join together the edge 15 of the base surface and
the foot 21 of the bearing surface 20 by inserting one inside the other; the joint
is such as to allow the relative movement of the two surfaces 10,20 in the longitudinal
direction X-X and ensure the coplanar arrangement of the two respective bottom sides
of the base surface 10 and the foot 21, which are intended to make contact with the
stringer 3 of the roof.
[0026] In general, joining together of the base surface 10 and the bearing surface 20 is
performed between edges 15,16,21 thereof lying in planes parallel to the base surface
10, allowing, in preferred embodiments, the formation of the vertical bearing surface
20 with a constant thickness equivalent to the thickness alone of the sheet metal
from which it is formed.
[0027] This allows the bearing surface 20 to be made with a thickness substantially smaller
than that of the base surface 10. In one preferred embodiment the thickness of the
base surface 10 is between 1.5 and 2.5 times the thickness of the bearing surface
20.
[0028] As a result of the smaller thickness of the bearing surface 20 it is also possible
to leave, during seaming, a wider space in the transverse direction between the said
surface 20 and the metal sheet, thus favouring compensation of expansion thereof in
the transverse direction Y-Y and making it possible to fold back the free edge 22
of the bearing surface 20 together with the metal sheet which is to be fixed, without
an excessive thickness of the edge 22 causing compression, pressure and undesirable
reactions during seaming.
[0029] It is envisaged, moreover, that the free edge 22 of the vertical surface 20, opposite
to the foot 21 for joining together with the base surface 10, has recesses 22 arranged
between first folds 22a substantially parallel to the transverse direction Y-Y and
that each fold 22a has a free end 22b in turn folded back towards the second surface
20 at angle of between 115° and 165°, and preferably between 135° and 145,° so as
to allow folding and closing without difficulty of the clamp onto the stringer 3 of
a roof.
[0030] As shown in Fig.
3, the transverse ribs 18a and longitudinal rib 18b of the base surface 10 of the flange
perform the dual function of reinforcing the flange itself and guiding a centring
tool 200 for inserting and screwing fixing screws 1. Conveniently and as shown in
Fig.
3 the tool 200 forms part of a screwdriver device 400 with a screwing head 401 so that,
during positioning and securing of the metal sheets 2 to the beams and/or stringers
3 of the roof, the hole 11,12 of the base surface 10 of the clamp may be centred and
the screw 1 screwed precisely to the said beam while keeping the clamp squarely arranged
and positioned.
[0031] As shown in Figs. 3
and 4 during positioning and securing of the metal sheets 2 to the crossbeams and/or stringers
3 of the roof, which are lined with felt 3a, the screws 1 are applied, centring the
holes 11 in the base surface 10 of the clamp, and then seaming to the crossbeam or
stringer 3 is performed, while keeping the clamp squarely arranged and positioned
also during folding-over (Fig.
4) of the free edges 22a, 22b of the surface 20 for definitive relative fixing.
[0032] It is therefore clear how, owing to the joint, freely slidable in the longitudinal
direction X-X, between the base surface 10 and the bearing surface 20, but also the
coplanar arrangement of the respective bottom sides of the base surface and the foot
of the bearing surface intended to make contact with the roof stringer, the clamp
according to the invention is able to compensate for the relative movements in the
longitudinal direction due to thermal expansion/contraction of the metal sheets fixed
by means of the clamp itself, leaving moreover a space between the bearing surface
and the metal sheet able to compensate for the expansion movements in the transverse
direction thereof and ensuring a longer working life of the roof which is not damaged
by the said thermal expansion movements, as well as the substantial absence of noise
normally caused by them, solving the problems mentioned in connection with the clamps
of the prior art.
[0033] In addition to this, the clamp according to the invention can be applied by means
of a fast screwing and centring tool which ensures fixing of the metal sheets forming
the roofing to the said clamps with a laying speed comparable to that of nailing,
but with a greater precision and the use of screws which ensure a tensile strength
far superior to that of nails.
[0034] The better squared arrangement of the clamp once fixed also ensures a more silent
behaviour of the sheet-metal roof since the movements due to the temperature variations
take place in parallel directions which do not cause squeaking.
[0035] Moreover joining together of the base surface 10 and the bearing surface 20 may be
performed using alternative joining systems, such as longitudinal eyelets formed in
the respective edges and connected together by means of vertical rivets; these systems
are within the scope of the person skilled in the art and therefore all equivalent
to each other depending on the degree of freedom which is left between the two parts
for relative sliding in the longitudinal direction and the space for transverse expansion
of the seamed sheets. Furthermore, owing to the particular configuration of the clamp
according to the invention, said clamp may be produced with vertical bearing surfaces
20 having different dimensions in the vertical direction Z-Z, resulting in the possibility
of obtaining a clamp assembled with a vertical bearing surface having a height better
suited to the specific application.
[0036] In addition, economies of scale for production and warehouse management are thus
also achieved, it being possible to use a single base model for different bearing
surfaces.
[0037] Although described in connection with a number of embodiments and a number of preferred
examples of embodiment of the invention, it is understood that the scope of protection
of the present patent is determined solely by the claims below.
1. Clamp for securing metal sheets (2) to roofing beams (3), comprising a horizontal
base surface (10) in which at least two through-holes (11) are formed, a vertical
bearing surface (20), substantially perpendicular to the base surface (10), the base
surface (10) being provided with raised transverse ribs (18a) and at least one raised
longitudinal rib (18b), wherein fastening together of the base surface (10) and the
bearing surface (20) is performed by means of a joint (16,21a,21b) between a horizontal
edge (15) of the base surface and a horizontal foot (21) of the vertical surface (20)
which provides at least one degree of freedom for relative sliding of the base surface
(10) and bearing surface (20) in the longitudinal direction (X-X),
characterized in that the two respective bottom sides of the base surface (10) and the foot (21) of the
bearing surface (20), which are intended to come into contact against the stringer
(3) of the roof, are coplanar with each other once joining has been performed.
2. Clamp according to Claim 1, characterized in that said joint between the base surface (10) and the bearing surface (20) is formed by
means of folded edges (15;16;21) of said surfaces lying in planes substantially parallel
to the base surface (10).
3. Clamp according to Claim 1 or 2, characterized in that the edge (15) of the base surface (10) intended for joining together with the horizontal
foot (21) of the bearing surface (20) is shaped with a first fold (15a) which positions
the top side of the edge (15) itself at a height in the vertical direction Z-Z greater
than that of the rest of the surface (10) and with a second fold (15b) which positions
the free end portion (16) of the edge (15) underneath and substantially parallel with
the latter, forming a seat in the form of an inverted C (17) extending in the longitudinal
direction (X-X) and open in the transverse direction (Y-Y) on the side opposite to
that directed towards the bearing surface (20) and designed to receive the horizontal
foot (21) of the vertical surface (20) for joining together of the two surfaces (10;20).
4. Clamp according to Claim 3, characterized in that the vertical bearing surface (20) has a horizontal foot (21) with a first fold (21a)
and a second fold (21b) such as to determine a C-shaped form of the foot arranged
opposite the inverted C form of the edge (15) of the base surface (10) and with arms
substantially parallel to the base surface (10) itself.
5. Clamp according to any one of the preceding claims, characterized in that each transverse rib (18a) has an end directed towards the vertical bearing surface
(20) with a bottom seat (18c) suitable for engagement with the fold (15a) of the raised
edge (15) of the base surface (10).
6. Clamp according to Claim 5, characterized in that the depth of the seat (18c) in the vertical direction is such as to determine the
coplanar arrangement of the bottom side thereof with the top side of the base surface
(10).
7. Clamp according to any one of the preceding claims, characterized in that at least one of said transverse ribs (18a) is arranged between each end hole (11)
and the corresponding transverse side edge (10a;10b).
8. Clamp according to Claim 5, 6 or 7, characterized in that at least two of said transverse ribs (18a) are connected, at their end directed towards
the free edge (10c) of the base surface (10), to the rib (18b) extending in the longitudinal
direction (X-X).
9. Clamp according to any one of the preceding claims, characterized in that each hole (11;12) is situated between two respective raised ribs (18a) extending
in the transverse direction (Y-Y).
10. Clamp according to any one of the preceding claims, characterized in that the free end (22) of the vertical side (20) has a first folded-back portion (22a)
substantially parallel to the base surface (10).
11. Clamp according to Claim 10, characterized in that each folded-back portion (22a) has a free end (22b) in turn folded back towards the
bearing surface (20) at an angle of between 115° and 165° and preferably between 135°
and 145°.
12. Clamp according to Claim 10, characterized in that the free edge (22) of the vertical surface (20), opposite to that for joining together
with the base surface (10), has recesses (23) arranged between first folded-back portions
(22a) and substantially parallel to the transverse direction (Y-Y).
13. Clamp according to any one of the preceding claims, characterized in that the base surface (10) can be joined to bearing surfaces (20) with different dimensions
in the vertical direction (Z-Z).
14. Clamp according to any one of the preceding claims, characterized in that the vertical bearing surface (20) has a constant thickness equivalent to the thickness
of the metal sheet from which it is formed.
1. Klemme zur Befestigung von Metallplatten (2) an Dachbalken (3), umfassend eine horizontale
Basisfläche (10), in der mindestens zwei Durchgangsöffnungen (11) gebildet sind, eine
vertikale Lagerfläche (20), die im Wesentlichen rechtwinkelig zur Basisfläche (10)
ist, wobei die Basisfläche (10) mit erhöhten Querrippen (18a) und mindestens einer
erhöhten Längsrippe (18b) versehen ist, wobei das Befestigen der Basisfläche (10)
und der Lagerfläche (20) aneinander durch eine Verbindung (16, 21a, 21b) zwischen
einem horizontalen Rand (15) der Basisfläche und einem horizontalen Fuß (21) der vertikalen
Fläche (20) durchgeführt wird, das zumindest einen Freiheitsgrad für das relative
Verschieben der Basisfläche (10) und der Lagerfläche (20) in der Längsrichtung (X-X)
bietet,
dadurch gekennzeichnet, dass die zwei entsprechenden Unterseiten der Basisfläche (10) und des Fußes (21) der Lagerfläche
(20), die am Längsträger (3) des Dachs in Kontakt treten sollen, zueinander koplanar
sind, sobald die Verbindung durchgeführt ist.
2. Klemme nach Anspruch 1, dadurch gekennzeichnet, dass die Verbindung zwischen der Basisfläche (10) und der Lagerfläche (20) durch gefaltete
Ränder (15; 16; 21) der Flächen gebildet ist, die in zur Basisfläche (10) im Wesentlichen
parallelen Ebenen liegen.
3. Klemme nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass der Rand (15) der Basisfläche (10), der für das Verbinden mit dem horizontalen Fuß
(21) der Lagerfläche (20) vorgesehen ist, mit einer ersten Faltung (15a) geformt ist,
die die Oberseite des Randes (15) selbst auf einer Höhe in der vertikalen Richtung
Z-Z positioniert, die größer als jene des Rests der Fläche (10) ist, und mit einer
zweiten Faltung (15b), die den freien Endteil (16) des Randes (15) unterhalb und im
Wesentlichen parallel zum Letztgenannten positioniert, sodass ein Sitz in der Form
eines umgekehrten C (17) gebildet wird, der sich in der Längsrichtung (X-X) erstreckt
und in der Querrichtung (Y-Y) an der Seite entgegengesetzt zu derjenigen, die der
Lagerfläche (20) zugewandt ist, offen und dafür ausgebildet ist, den horizontalen
Fuß (21) der vertikalen Fläche (20) aufzunehmen, um die zwei Flächen (10; 20) miteinander
zu verbinden.
4. Klemme nach Anspruch 3, dadurch gekennzeichnet, dass die vertikale Lagerfläche (20) einen horizontalen Fuß (21) mit einer ersten Faltung
(21a) und einer zweiten Faltung (21b) hat, um eine C-förmige Form des Fußes zu bestimmen,
die entgegengesetzt zur umgekehrten C-Form des Randes (15) der Basisfläche (10) angeordnet
ist, und deren Schenkel im Wesentlichen parallel zur Basisfläche (10) selbst sind.
5. Klemme nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass jede Querrippe (18a) ein der vertikalen Lagerfläche (20) zugewandtes Ende mit einem
unteren Sitz (18c) hat, der für den Eingriff mit der Faltung (15a) des erhöhten Randes
(15) der Basisfläche (10) geeignet ist.
6. Klemme nach Anspruch 5, dadurch gekennzeichnet, dass die Tiefe des Sitzes (18c) in der vertikalen Richtung derart ist, dass sie die koplanare
Anordnung der Unterseite davon mit der Oberseite der Basisfläche (10) bestimmt.
7. Klemme nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass mindestens eine der Querrippen (18a) zwischen jeder Endöffnung (11) und dem entsprechenden
Querseitenrand (10a; 10b) angeordnet ist.
8. Klemme nach Anspruch 5, 6 oder 7, dadurch gekennzeichnet, dass mindestens zwei der Querrippen (18a) an ihrem Ende, das den freien Rand (10c) der
Basisfläche (10) zugewandt ist, mit der Rippe (18b) verbunden sind, die sich in der
Längsrichtung (X-X) erstreckt.
9. Klemme nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass jede Öffnung (11; 12) zwischen zwei entsprechenden erhöhten Rippen (18a) angeordnet
ist, die sich in der Querrichtung (Y-Y) erstrecken.
10. Klemme nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass das freie Ende (22) der vertikalen Seite (20) einen ersten zurückgefalteten Teil
(22a) hat, der im Wesentlichen parallel zur Basisfläche (10) ist.
11. Klemme nach Anspruch 10, dadurch gekennzeichnet, dass jeder zurückgefaltete Teil (22a) ein freies Ende (22b) hat, das wiederum in einem
Winkel zwischen 115° und 165° und vorzugsweise zwischen 135° und 145° zurück zur Lagerfläche
(20) gefaltet ist.
12. Klemme nach Anspruch 10, dadurch gekennzeichnet, dass das freie Ende (22) der vertikalen Fläche (20), entgegengesetzt zu demjenigen für
das Verbinden mit der Basisfläche (10), Ausnehmungen (23) hat, die zwischen ersten
zurückgefalteten Teilen (22a) angeordnet und im Wesentlichen parallel zur Querrichtung
(Y-Y) sind.
13. Klemme nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Basisfläche (10) mit Lagerflächen (20) mit unterschiedlichen Abmessungen in der
vertikalen Richtung (Z-Z) verbunden werden kann.
14. Klemme nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die vertikale Lagerfläche (20) eine konstante Dicke hat, die äquivalent zur Dicke
der Metallplatte ist, aus der sie gebildet ist.
1. Bride de fixation servant à fixer des tôles métalliques (2) à des poutrelles de toiture
(3), comprenant une surface de base horizontale (10) dans laquelle sont formés au
moins deux trous traversants (11), une surface d'appui verticale (20), sensiblement
perpendiculaire à la surface de base (10), la surface de base (10) étant pourvue de
nervures transversales surélevées (18a) et d'au moins une nervure longitudinale surélevée
(18b), dans laquelle la fixation, l'une à l'autre, de la surface de base (10) et de
la surface d'appui (20) se fait au moyen d'une liaison (16, 21a, 21b) entre un bord
horizontal (15) de la surface de base et un pied horizontal (21) de la surface verticale
(20) qui fournit au moins un degré de liberté permettant un coulissement relatif de
la surface de base (10) et de la surface d'appui (20) dans la direction longitudinale
(X-X),
caractérisée en ce que les deux côtés inférieurs respectifs de la surface de base (10) et du pied (21) de
la surface d'appui (20), qui sont destinés à venir en contact contre le liteau (3)
du toit, sont coplanaires l'un à l'autre une fois que la liaison a été effectuée.
2. Bride de fixation selon la revendication 1, caractérisée en ce que ladite liaison entre la surface de base (10) et la surface d'appui (20) est formée
au moyen de bords pliés (15 ; 16 ; 21) desdites surfaces qui se trouvent dans des
plans sensiblement parallèles à la surface de base (10).
3. Bride de fixation selon la revendication 1 ou 2, caractérisée en ce que le bord (15) de la surface de base (10), destiné à une liaison mutuelle avec le pied
horizontal (21) de la surface d'appui (20), est formé avec un premier pli (15a) qui
positionne le côté supérieur du bord (15) lui-même à une hauteur dans la direction
verticale (Z-Z) supérieure à celle du reste de la surface (10) et avec un second pli
(15b) qui positionne la partie d'extrémité libre (16) du bord (15) au-dessous de cette
dernière et sensiblement parallèlement à celle-ci, en formant un logement ayant la
forme d'un C inversé (17) s'étendant dans la direction longitudinale (X-X) et ouvert
dans la direction transversale (Y-Y) du côté opposé à celui orienté vers la surface
d'appui (20) et conçu pour recevoir le pied horizontal (21) de la surface verticale
(20) à des fins de liaison mutuelle des deux surfaces (10 ; 20).
4. Bride de fixation selon la revendication 3, caractérisée en ce que la surface d'appui verticale (20) comporte un pied horizontal (21) doté d'un premier
pli (21a) et d'un second pli (21b) de façon à déterminer une forme de C du pied disposé
opposé à la forme de C inversé du bord (15) de la surface de base (10) et doté de
bras sensiblement parallèles à la surface de base (10) elle-même.
5. Bride de fixation selon l'une quelconque des revendications précédentes, caractérisée en ce que chaque nervure transversale (18a) comporte une extrémité orientée vers la surface
d'appui verticale (20) dotée d'un logement inférieur (18c) approprié pour une coopération
avec le pli (15a) du bord surélevé (15) de la surface de base (10).
6. Bride de fixation selon la revendication 5, caractérisée en ce que la profondeur du logement (18c) dans la direction verticale est telle qu'elle détermine
la disposition coplanaire de son côté inférieur au côté supérieur de la surface de
base (10).
7. Bride de fixation selon l'une quelconque des revendications précédentes, caractérisée en ce qu'au moins l'une desdites nervures transversales (18a) est ménagée entre chaque trou
d'extrémité (11) et le bord latéral transversal correspondant (10a ; 10b).
8. Bride de fixation selon la revendication 5, 6 ou 7, caractérisée en ce qu'au moins deux desdites nervures transversales (18a) communiquent, au niveau de leur
extrémité orientée vers le bord libre (10c) de la surface de base (10), avec la nervure
(18b) s'étendant dans la direction longitudinale (X-X).
9. Bride de fixation selon l'une quelconque des revendications précédentes, caractérisée en ce que chaque trou (11 ; 12) est situé entre deux nervures surélevées respectives (18a)
s'étendant dans la direction transversale (Y-Y).
10. Bride de fixation selon l'une quelconque des revendications précédentes, caractérisée en ce que l'extrémité libre (22) du côté vertical (20) comporte une première partie pliée vers
l'arrière (22a) sensiblement parallèle à la surface de base (10).
11. Bride de fixation selon la revendication 10, caractérisée en ce que chaque partie pliée vers l'arrière (22a) comporte une extrémité libre (22b) qui est,
à son tour, pliée vers l'arrière en direction de la surface d'appui (20) à un angle
compris entre 115° et 165° et, de préférence, à un angle compris entre 135° et 145°.
12. Bride de fixation selon la revendication 10, caractérisée en ce que le bord libre (22) de la surface verticale (20), opposé à celui permettant la liaison
mutuelle avec la surface de base (10), comporte des évidements (23) ménagés entre
les premières parties pliées vers l'arrière (22a) et sensiblement parallèles à la
direction transversale (Y-Y).
13. Bride de fixation selon l'une quelconque des revendications précédentes, caractérisée en ce que la surface de base (10) peut être liée à des surfaces d'appui (20) ayant des dimensions
différentes dans la direction verticale (Z-Z).
14. Bride de fixation selon l'une quelconque des revendications précédentes, caractérisée en ce que la surface d'appui verticale (20) a une épaisseur constante correspondant à l'épaisseur
de la tôle métallique dans laquelle elle a été formée.
REFERENCES CITED IN THE DESCRIPTION
This list of references cited by the applicant is for the reader's convenience only.
It does not form part of the European patent document. Even though great care has
been taken in compiling the references, errors or omissions cannot be excluded and
the EPO disclaims all liability in this regard.
Patent documents cited in the description