BACKGROUND OF THE INVENTION
[0001] The present invention relates to a cooperating section member assembly with thermal
bridge interruptions for making improved thermal property metal window and door frames.
[0002] Thermal bridging interruption section member assemblies are already known which are
substantially constituted by an outer metal section member, provided to be subjected
to the outside environment, and an inner metal section member, provided to be subjected
to the inside environment, said section members being coupled to one another by a
thermally insulating material small bars or rods.
[0003] Usually, the mentioned thermally insulating material bars are also formed by extruded
section members, made of synthetic material, instead of a metal material, such as,
for example, a polyamide material.
[0004] The mentioned bars are provided, at the side end portions thereof, with increased
thickness regions, to be engaged in suitably seats as formed on the faces of the outer
metal section member and on the mutually facing surfaces of the inner metal section
member.
[0005] The seats or recesses in which are engaged the side end portions of the thermally
insulating material bars are defined by projecting fins and, accordingly, between
the mentioned fins and the thermally insulating material bars is defined a step formed
with the body of the bars laying in a recessed region, where water tends to accumulate
and penetrate inside the section member.
[0006] The presence of such a recessed region makes the making of these section members
very complex, since it is necessary to perform boring or milling operations on said
section members, so as to drain to the outside the collected water.
[0007] In addition to this penetrating water, condensate material can collect in this regions,
said condensate material being generally formed inside the window or door frame because
of the contact of air of the inside environment, usually moist, with the cold regions
of the window or door frame.
[0008] Another region where penetrating water can collect is constituted by the central
gasket which is conventionally arranged between the movable frame and fixed frame
of a window or door frame construction.
[0009] Moreover, in some types of window or door frames the inner metal section members
usually are arranged straddling the abutment plane of the central gasket and movable
frame and, accordingly, they are inevitably exposed to temperatures which are much
smaller than the temperatures of the inside environment.
[0010] Thus, the thermally insulation properties of the window or door frame are actually
unsatisfactory.
SUMMARY OF THE INVENTION
[0011] The aim of the present invention is to overcome the above mentioned drawbacks, by
providing a cooperating section member assembly, with thermal bridge interruptions
for making improved thermal property metal window and door frames which is not affected
by any problems related to the draining of water and condensate material from the
inside of a window or door frame.
[0012] Within the scope of the above mentioned aim, a main object of the present invention
is to provide such a section member assembly which allows to drain penetrating water
even from the abutment region of the central gasket arranged between the fixed frame
and movable frame of a window or door frame.
[0013] Another object of the present invention is to provide such a section member assembly
which allows to easily make metal window or door frames provided with a high thermal
insulation property, while having a very reduced making cost.
[0014] According to one aspect of the present invention, the above mentioned aim and object,
as well as yet other objects, which will become more apparent hereinafter, are achieved
by a cooperating section member assembly with thermal bridge interruptions for making
improved thermal property metal window and door frames, comprising fixed frame section
members and/or movable frame section members, constituted by an outer metal section
member provided to be subjected to the outside environment, and an inner metal section
member, provided to be subjected to the inside environment.
[0015] The outer metal section member is connected to the inner metal section member by
thermally insulating material elements, and being characterized in that the thermally
insulating material elements comprise a pair of adjoining bars and are provided with
enlarged end portions engageable in seats defined by fins projecting from the faces
of the inner metal section member and from the facing faces of the outer metal section
member; said bars being provided with a contoured body with a middle region laterally
offset at the end portions thereof, on the part opposite to the adjoining bar and
being substantially coplanar with the fins defining said seats and arranged outside
of said pair of bars.
BRIEF DESCRIPTION OF THE DRAWING
[0016] Further characteristics and advantages of the section member assembly according to
the present invention will become more apparent hereinafter from the following detailed
disclosure of some preferred, though not exclusive, embodiments thereof which are
illustrated, by way of a merely indicative, but not limitative, example, in the accompanying
drawings, where:
Figure 1 schematically illustrates a fixed window or door frame;
Figure 2 is an enlarged cross-sectional view of Figure 1, substantially taken along
the axis II-II;
Figure 2a illustrates those same metal section members, i.e. the inner and outer section
members, shown in Figure 2, which are connected to one another by bars the lengths
of which are different from the lengths of the bars shown in Figure 2;
Figure 3 is a schematic view illustrating a movable-wing window or door frame;
Figure 4 is an enlarged cross-sectional view of Figure 3, substantially taken along
the section axis IV-IV;
Figures 5 and 6 are cross-sectional views similar to those of Figure 4, in which are
shown section members having a different aesthetic configuration, i.e. different from
that shown in Figure 4;
Figures 4a, 5a and 6a are cross-sectional views similar to those shown in Figures
4, 5 and 6, with the same section members illustrated in these Figures and mutually
connected by different length bars;
Figure 7 is a schematic view illustrating a window having two openable wings;
Figure 8 is an enlarged cross-sectional view of Figure 7, with section members having
a different aesthetic configuration;
Figures 8a and 9a are cross-sectional views similar to Figures 8 and 9 with the same
metal section members and connecting bars having different lengths;
Figure 10 is a cross-sectional view illustrating the fixed frame section member shown
in Figures 2, 4, 5 , 6;
Figure 11 is a cross-sectional view illustrating the movable frame section member
shown in Figure 4;
Figures 10a and lla are cross-sectional view illustrating those same metal section
members shown by Figures 10 and 11, connected to one another by a thermally insulating
material bars, of different lengths;
Figure 12 is a cross-sectional view illustrating the movable frame section member
defining a central abutment region, and being shown also in Figure 8 and 9;
Figure 13 is a cross-sectional view illustrating a further "thermal-cut" section member,
as transversely cross-sectioned;
Figure 14 is a further cross-sectional view illustrating one of the movable frame
section members shown in Figure 9;
Figure 15 is a further cross-sectional view illustrating one of the movable frame
section members shown in Figure 6;
Figure 16 is a cross-sectional view illustrating yet another fixed frame section member
having a "thermal-cut" property;
Figures 12a to 16a illustrate, by respective cross-sectional views, section members
made by using the same inner and outer metal section members shown in Figures 12 to
16, connected by a thermally insulating material bars having different lengths;
Figures 17 to 20 illustrate further cross-sectional views of thermal-cut section members,
for making window and door frames; and
Figures 21 to 33 illustrate several types of glass-restraining section members.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0017] With reference to the number references of the above mentioned figures, the section
member assembly according to the present invention comprises fixed frame section members
and/or movable frame section members which, as shown for example in figure 2, which
relates to a fixed frame section member, are constituted by an outer metal section
member 1, provided to be subjected to the outside environment, and an inner metal
section member 2, provided to be subjected to the inside environment.
[0018] On the two faces of the section member 1 and section member 2, which are mutually
facing one another, are defined seats or recesses 3, delimitated by fins 4 for the
side end portions of a pair of bars 5, of a thermally insulating material, which mechanically
connects, by thermally insulating them, the section members 1 and 2.
[0019] The bars 5 can also be made by an extruding process, but starting from a synthetic
or resinous material, such as, for example, polyamide, and have a specifically designed
configuration, with the enlarged end portions 5a and with a middle region 5b which
is lateral offset from the end portions 5a, on the opposite part with respect to an
adjoining bar, so that the middle region 5b is substantially coplanar with the fins
4 defining the mentioned seats or recesses 3 and arranged outside of the pair of bars
5.
[0020] Thus, the bars 5 and fins 4 will be substantially continuous, so as to prevent any
steps from being formed and thereby efficiently preventing water or condensate material
from collecting at the passage region between the bars 5 and fins 4.
[0021] The outer or outside metal section member is provided, in a per se known manner,
with a wing 7, or leg, ending with an end portion provided with a seat or recess for
a gasket 8, provided for contacting a glass plate or a panel 9.
[0022] On the inside or inner metal section member 2 is assembled a glass restraining element
10, for example of a snap assemblable type, which bears on the other face of the panel
or plate 9 through the interposition of a further gasket 11.
[0023] Figure 4 illustrates a side of an openable-wing window frame.
[0024] The fixed frame is herein substantially made of a fixed frame section member, constituted
by the already disclosed section members 1 and 2, for which the same reference numbers
have been used, and by a movable frame section member, which is essentially constituted
by an outer metal section member 20 and an inner metal section member 21 which are
mutually coupled by the bars 22 and 23 made likewise the bars 5, i.e. with the middle
regions thereof offset with respect to the end portions thereof.
[0025] The bar 23 facing the fixed frame is provided with a fin 24 defining an abutment
portion for a central gasket 25, making an open joint connection, which is affixed
inside a pair of fins 26 and 27 of one of the bars 5 which mutually connect the section
members 1 and 2.
[0026] The section member 20 is provided with a leg 28, ending with a seat or recess for
a gasket 8, provided to bear against a plate 9, whereas on the inner metal section
member 21 is applied a glass restraining element 29 which, through another gasket
11, bears on the other face of the plate or panel 9.
[0027] The sealing between the movable frame and fixed frame can be improved by an auxiliary
gasket 30, applied to the section member 21, and provided for bearing against the
inner side of the section member 2.
[0028] In this connection it should be apparent that the central gasket 25 extends with
a slanted arrangement toward the outer metal section member 1, so as to convey on
this outer metal section the water which is susceptible to enter the region between
the fixed frame and movable frame.
[0029] Moreover, the regions of the outer metal section members 1 and 20 arranged laterally
of the engagement regions of the bars 5, 22 and 23, define draining channels 31, 32,
33 and 34 for draining the penetrated water.
[0030] The draining channels 31, 32, 33 and 34 communicate with the outside through vertical
or horizontal perforations, defined through the section members 1 and 20, and not
shown for simplicity.
[0031] In the window or door frame made by the section members according to the present
invention, as is clearly shown in figure 4, the inner metal section members 2 and
21, both of the fixed frame and of the movable frame, are all arranged on a same side,
with respect to the sealing plane, identified by the connection of the central gasket
25 with the fin 24.
[0032] Thus, a very good thermal insulation efficiency is obtained, since all of the inner
portions of the section members are arranged toward the inside of the home or room,
that is in a "hot" region.
[0033] Figures 5 and 6 illustrate sides of openable wing window or door frames, of the type
shown in figure 4, with the difference that, instead of using the section member 20
and the glass restraining section member 29, are herein used outer metal section members
120 and 220, respectively having a convex bent leg and a concave bent leg, and glass
restraining section members 129 and 229 having different aesthetic features.
[0034] The other section members are held unchanged, and these section members have been
indicated by like reference numbers, as well as have been held unchanged the reference
numbers indicating the bars and auxiliary items.
[0035] Figures 2a - 6a illustrate section members which have been made by using the same
section members of figures 2 to 6, but with bars made of a thermally insulating material,
and having a different length, which have been indicated by the reference numbers
105, 122 and 123.
[0036] For the section members which, as stated, have been held unchanged, like reference
numbers have been used as in figures 2 to 6.
[0037] Figure 8 illustrates a cross-sectional view of a central "knot" for an openable two-wing
window. A wing thereof is substantially made by the movable frame section members
shown in figure 4, which have been indicated by like reference numbers, whereas the
other wing has been made by using the same section members 20 and 21 forming the movable
frame of figure 4, with the addition of a section member constituted by an outer section
member 40 and an inner section member 41, coupled to one another by bars 5 made of
a thermally insulating material, as disclosed for the preceding figures, and affixed
to the section member 21, for example by screws 42.
[0038] Figure 9 shows a cross-sectional view of a central knot for an openable two-wing
windows with the difference that, instead of the section member 20, a section member
120 has been used and, instead of using the glass restraining section member 29, the
glass restraining section member 129 has been used, so as to provide a different aesthetic
pattern.
[0039] Figures 8a and 9a illustrates cross-sectional views of a central knot of an openable
two-wing window, with the difference that, with respect to figures 8 and 9, have been
used bars made of a thermally insulating material 105, 122 and 123 having different
lengths.
[0040] In figure 10 has been illustrated the fixed frame section member already shown in
figure 2, for which the like reference numbers have been used, whereas in figure 11
has been shown the movable frame section member, illustrated in figure 4 and for which
the like reference numbers have been used.
[0041] In figures 10a and 11a have been shown the fixed frame section member and the movable
frame section member, already shown in figures 2a and 4a.
[0042] In figure 12 is shown the central section member, already shown in figures 8 and
9, which defines the central abutment region of the two-wing window frame and which
is constituted by the outer metal section member 40 and by the inner metal section
member 4, connected to one another by a pair of thermally insulating material bars
5.
[0043] In figure 13 is shown a section member constituted by an outer section member 51
with a pair of opposite legs 51a and 51b and by an inner metal section member 52 which
is connected to the outer metal section member 51 through a pair of bars made of a
thermally insulating material, which are identical o those already disclosed with
reference to the preceding figures and which have been indicated by the same reference
numbers.
[0044] Figure 14 shows the movable frame section member illustrated in figure 9, for which
the same reference numbers have been held.
[0045] Figure 15 shows the movable frame section member, already shown in figure 6, and
for which the same reference numbers have been used.
[0046] Figure 16 shows a further fixed frame section member having, in its cross section,
a substantially Z-shape and constituted by a metal outer section member 60 and a metal
inner section member 61 connected to one another by bars identical to the bars of
thermally insulating material already disclosed and indicated by the reference number
5.
[0047] Figures 12a to 16a show, by a cross-sectional view, section members made by inner
metal section members and outer metal section members identical to the section members
shown in figures 12 to 16 and with thermally insulating material bars having different
lengths like those illustrated in figures 10a and 11a.
[0048] Figure 17 illustrates another fixed frame section member, constituted by a metal
outer section member 80, a metal inner section member 81 coupled to one another by
bars 105 made of a thermally insulating material.
[0049] Figure 18 illustrates a further movable frame section member constituted by an outer
section member 82, an inner5 section member 83 coupled to one another by bars 122
and 123 made of a thermally insulating material.
[0050] Figure 19 illustrates another fixed frame section member, constituted by an outer
section member 84 and an inner section member 85 coupled to one another by bars 105
of a thermally insulating material, whereas figure 20 illustrates a further movable
frame section member constituted by an outer section member 86 and an inner section
member 87, coupled to one another by bars 122 and 123 likewise the section member
shown in figure 18.
[0051] Finally, figures 21 to 33 illustrate several types of glass restraining section members
which can be used with the subject frame section member assembly.
[0052] Some of the above mentioned glass restraining section members have been already disclosed
and shown in the preceding figures and, for these section members, have been held
the same reference numbers, whereas the other have been individually indicated by
the reference numbers from 190 to 188.
[0053] From the above disclosure and from the observations of the figures of the accompanying
drawings, it should be apparent that the invention fully achieves the intended aim
and objects.
[0054] In particular, the fact is to be pointed out that a section member assembly has been
provided with a thermally bridge interruption, allowing to make metal window and door
frames assuring a high thermal insulation from the outside environment and preventing
water from collecting inside the window frame.
[0055] The thus designed section member assembly is susceptible to several variations and
modifications all of which will come within the scope of the inventive idea.
[0056] Moreover, all of the details can be replaced by other technically equivalent elements.
[0057] In practicing the invention, the used materials, provided that they are compatible
to the intended use, as well as the contingent size and shapes, can be any, depending
on requirements.
1. A cooperating section member assembly with thermal bridge interruptions for making
improved thermal property metal window and door frames, comprising fixed frame section
members and/or movable frame section members, constituted by a metal outer section
member, provided to be subjected to the outside environment, and a metal inner section
member provided to be subjected to the inside environment, said metal outer section
member being connected to said metal inner section member by elements of a thermally
insulating material, characterized in that said thermally insulating material elements
comprise a pair of adjoining bars and having enlarged end portions, engageable in
seats defined by projecting fins which project from the faces of said metal inner
section member and said metal outer section member, said faces being mutually facing,
said bars having a contoured body with a middle region laterally offset at the ends
thereof, on the opposite part of the adjoining bar, and substantially coplanar with
the fins defining said seats and arranged outside of said pair of bars.
2. A section member assembly, according to Claim 1, characterized in that said bars are
made of polyamide.
3. A section member assembly, according to the preceding claims, charac terized in that
one of said bars, connecting a metal outer section member and a metal inn er section
member of a movable frame section member is provided with an abutment fin for a central
gasket, coupled to one of said bars, which connects the metal outer section member
with the metal inner section member of a fixed frame section member.
4. A section member assembly, according to one or more of the preceding claims, characterized
in that said gasket is slanted toward the metal outer section member for conveying
to the outside penetrating waters.
5. A section member assembly, according to one or more of the preceding claims, characterized
in that in said metal outer section members are defined, laterally of the bar engagement
regions, channels for draining penetrating water, said channels communicating with
the outside environment.
6. A section member assembly, according to one or more of the preceding claims, characterized
in that said bars are associated with said metal section members and can be inter-exchanged
with other bars, of different size, in order to change the thermal insulation properties
of the section members.
7. A window or door frame made by the section member assembly according to one or more
of the preceding claims, characterized in that said window or door frame comprises
a fixed frame and a movable frame, made by fixed frame section members and movable
frame section members, constituted by a metal inner section member and a metal outer
section member, coupled to one another by bars, one of said bars of the movable frame
section member being provided with an abutment fin for a central gasket coupled to
said fixed frame and providing an open joint connection between the movable frame
and fixed frame, the metal inner section members of said fixed frame and the metal
inner section members of said movable frame being arranged all on a same side with
respect to a sealing plane of the window or door frame identified by the connection
of the central gasket with said fin.