EP2279316A1 - Optimized selvage for doors with gaskets and the like - Google Patents

Abstract

An optimized selvage (1) for doors with gaskets and the like, of the type that comprises a frame (2) provided with at least one opening (3), and respective elements (4) for coupling to the installation jamb. The opening (3) comprises at least one unit (5) which interferes with the opening (3) and is arranged along it so as to reduce the width of the opening (3). The unit (5) yields to external forcing actions directed toward the corresponding wall (6) of the installation o enin 3.

Description

OPTIMIZED SELVAGE FOR DOORS WITH GASKETS AND THE LIKE Technical Field

The present invention relates to an optimized selvage for doors with gaskets and the like. Background Art

At each portion of a door in which a component of the lock (be it a bolt or a latch) is installed there must be a respective selvage (suitable to accommodate the bolt or latch) on the jamb.

Correct closure of the door is ensured by the optimum mating of each latch/bolt with the corresponding selvage.

In order to facilitate assembly, selvages are known which have elements for fixing to the jamb which are of an adjustable type and by means of which the selvage is aligned with the latch or bolt during assembly. In order to maintain the door in conditions of ideal thermal and acoustic insulation of the rooms that it divides, it is often convenient to fit gaskets along the surface of the jamb along which the door abuts. The gaskets, when the door is closed, are clamped between the lateral edge of the door and the jamb and therefore ensure the seal, preventing the passage of air between the rooms.

Clearly, the presence of this gasket, which must remain compressed, entails an elastic reaction thereof, which can affect the force with which the latch or bolt is forced against the wall of the selvage in the configuration in which the door is closed. In any case, upon thermal variations, even of a standard seasonal type

(therefore even without referring to installations which are particularly onerous in environmental and climate-related terms or in terms of refrigeration cells and the like), the gaskets and/or components can undergo dimensional variations (thermal contractions or expansions), with consequent modification of the closure conditions. For example, a contraction of the gaskets will entail a great reduction in the mutual compression force between the latch or bolt and the corresponding wall of the selvage: in an extreme case, the gaskets might contract so much that they no longer ensure tightness even if the latch or bolt is inserted in the selvage. In this case, air passages (entailing draughts) will occur and ^' the desired thermal and acoustic insulation will be compromised.

In case of expansion/dilation of the gaskets, the problems that can occur have even worse consequences. First of all, door closure can be degraded: the need to compress the gaskets more to close the door forces the application of greater force to close the door, since the reaction of the gasket tends to keep the latch or bolt away from the respective selvage.

Secondly (but in a fundamentally important way for correct operation of the lock installed on the door), the mutual forcing of the latch (or bolt) and the selvage wall (forcing imposed by the elastic reaction of the gasket in case of expansion) will require greater force on the handle (or on the panic bar or other opening element) in order to produce opening: the rotation of the handle (or the movement of the panic bar or other opening element) will in fact be hindered by friction between the latch (or bolt) and the wall of the selvage against which it is forced to rest. Since the friction force depends in a linear manner on the friction coefficient (which is constant) and on the perpendicular force that is applied, the increase in the elastic reaction of the gasket forces an obvious increase in the friction between the latch (or bolt) and the respective selvage.

Some statutory provisions (particularly in the case of doors installed on safety exit routes) require the handles to be actuatable by applying a force which does not exceed a predefined limit value.

The dimensional variations of the gaskets, as a consequence of thermal variations, can convert a lock which complies with statutory provisions into a lock which requires an actuation force which is greater than the maximum one predefined by the statutory provisions and is therefore not adapted for that type of installation. Disclosure of the Invention The aim of the present invention is to provide an optimized selvage for doors with gaskets and the like with which it is possible to make the actuation force of the handle (or of the panic bar or other opening element) of the lock independent of gasket size variation phenomena.

Within this aim, an object of the present invention is to provide an optimized selvage for doors with gaskets and the like with which it is possible to ensure the perfect seal of the gaskets regardless of their size variations.

Another object of the present invention is to provide an optimized selvage for doors with gaskets and the like which makes the behavior of the lock associated therewith independent of the size variations of any component of the lock, of the door and of the jamb.

Another object of the present invention is to provide an optimized selvage for doors with gaskets and the like which has low costs, is relatively simple to provide in practice and is safe in application. This aim and these and other objects, which will become better apparent hereinafter, are achieved by the present optimized selvage for doors with gaskets and the like, of the type that comprises a frame provided with at least one opening, and respective elements for coupling to the installation jamb, characterized in that said opening comprises at least one unit which interferes with said opening and is arranged along it so as to face it, so as to reduce the width of said opening, said unit yielding to external forcing actions directed toward the corresponding wall of said installation opening. Brief description of the drawings Further characteristics and advantages of the invention will become better apparent from the following detailed description of a preferred but not exclusive embodiment of an optimized selvage for doors with gaskets and the like, illustrated by way of non-limiting example in the accompanying drawings, wherein: Figure 1 is a front view of a first embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 2 is a sectional side view of a first embodiment of an optimized selvage for doors with gaskets and the like according to the invention; Figure 3 is a rear view of a first embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 4 is a front view of a second embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 5 is a sectional side view of a second embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 6 is a rear view of a second embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 7 is a front view of a third embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 8 is a sectional side view of a third embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 9 is a rear view of a third embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 10 is a front view of a fourth embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 11 is a sectional side view of a fourth embodiment of an optimized selvage for doors with gaskets and the like according to the invention; Figure 12 is a rear view of a fourth embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 13 is a front view of a fifth embodiment of an optimized selvage for doors with gaskets and the like according to the invention; Figure 14 is a sectional side view of a fifth embodiment of an optimized selvage for doors with gaskets and the like according to the invention;

Figure 15 is a rear view of a fifth embodiment of an optimized selvage for doors with gaskets and the like according to the invention. Ways of carrying out the Invention

With reference to the figures, the reference numeral 1 generally designates an optimized selvage for doors with gaskets and the like.

The selvage 1 comprises a frame 2 provided with at least one opening 3 and respective elements 4 for coupling to the installation jamb. The opening 3 comprises at least one unit 5 which interferes with the area delimited by the opening 3 and is arranged along the opening 3 so as to face it, in order to constitute a reduction of its width.

The unit 5 advantageously yields with respect to external forcing actions directed toward a corresponding wall 6 of the installation opening 3. When the mutual forcing of the latch (or bolt) and the wall 6 of the standard selvage (forcing imposed by the elastic reaction, in case of thermal expansion, of the gasket that is present between the jamb and the door) would require a greater force on the handle (or on the panic bar or other opening element) in order to provide opening, the adoption of the selvage 1 allows to avoid the increase in force for opening.

In this case, the rotation of the handle (or the movement of the panic bar or other opening element) would in fact have been hindered by the friction between the latch (or bolt) and the wall of the standard selvage on which it is forced to rest. Since the friction force depends in a linear manner on the friction coefficient (which is constant) and on the applied perpendicular force, the increase in the elastic reaction of the gasket would have imposed an obvious increase in the friction between the latch (or bolt) and the respective standard selvage.

With the selvage 1 according to the invention, instead, the deformation of the unit 5 allows to keep within limit values the force of mutual incidence between the latch (or bolt) and the unit 5: an increase in the elastic reaction of the gasket is matched by a deformation of the unit 5, with a reduction of its protrusion with respect to the wall 6. The friction between the latch (or bolt) and the unit 5 remains in practice contained within a preset limit value as a function of the elastic yielding constant of the unit 5.

Therefore, positively, the unit 5 yields with respect to external forcing actions directed toward the corresponding wall 6 of the installation opening 3, according to a predefined elastic constant chosen during design. The choice of the elastic yielding constant allows to determine the chosen interference of the unit with respect to the opening 3 as a function of the limit values provided for the external forcing actions. If the standards require keeping below a maximum value the force that needs to be applied to the handle (or panic bar or other opening element) to provide opening, it is possible to achieve this condition by choosing the unit 5 as a function of the elastic constant that allows to meet the indications of statutory provisions.

According to a possible embodiment, the interfering unit 5 comprises an elongated element 7, which is substantially parallel and proximate to the wall 6 of the opening 3, and at least one yielding coupling 8 for fixing the element 7 to the frame 2. In particular, it should be noted that the yielding couplings 8 can be two, in order to provide a condition of optimum symmetry.

In this case, the element 7 is movable, as a consequence of the deformations of the couplings 8, from a first configuration, in which the couplings 8 are inactive, for interference with the opening 3 and partial closure of the width of the opening 3, to a second configuration, in which the couplings 8 are deformed in substantial alignment with the wall 6, with maximum free width of the opening 3. According to another possible embodiment of particular interest in practice and in application, the interfering unit 5 is an elastic body which is rigidly coupled to the frame 2 in at least one of its portions.

The elastic body is itself deformable from a first configuration, in the absence of stresses applied thereto, for interference with the opening 3 and partial closure of the width of the opening 3, to a second configuration, in the presence of stresses applied thereto, of substantial alignment with the wall 6 of the opening 3, with maximum free width of the opening 3.

In this embodiment, the elastic body can be a profiled metallic stem 9, which has at least one end 10 stably coupled to the frame 2 and at least one part 11 which interferes with the opening 3.

More specifically, the profiled metallic stem 9 can engage stably, by means of its ends 19, means for fixing the frame 2 and the part 11 that interferes with the opening 3 can conveniently be the central one, which is suitably curved and protrudes with respect to the wall 6 of the opening 3 to which it is proximate.

As an alternative, the profiled metallic stem 9 can likewise be engaged stably with its ends 10 on means for fixing the frame 2 and a part 12 that interferes with the opening 3 can be the one that corresponds to the vicinity of its centerline, which is conveniently contoured and protrudes with respect to the wall 6 of the opening 3 to which it is proximate.

According to another embodiment, shown in Figures 13, 14 and 15, the elongated elements 7 of the interfering unit 5 are two, each arranged parallel to the respective wall 6 of the opening 3 and yieldingly associated with a fixed portion (substantially at the centerline) of the frame 2. It should be noted that in cases requiring adjustments of the selvage 1 after its installation, it is possible to provide apparatuses for adjusting the protrusion of the interfering unit 5 with respect to the wall 6.

These adjustment apparatuses can comprise for example threaded elements which are incident to the unit 5: the movement of the elements entails a variation of the protrusion of the unit 5 with respect to the corresponding wall 6 of the opening 3.

It has thus been shown that the invention achieves the proposed aim and objects.

The invention thus conceived is susceptible of numerous modifications and variations, all of which are within the scope of the appended claims.

All the details may further be replaced with other technically equivalent ones.

In the exemplary embodiments shown, individual characteristics, given in relation to specific examples, may actually be interchanged with other different characteristics that exist in other exemplary embodiments.

Moreover, it is noted that anything found to be already known during the patenting process is understood not to be claimed and to be the subject of a disclaimer. In practice, the materials used, as well as the shapes and the dimensions, may be any according to requirements without thereby abandoning the scope of the protection of the appended claims.

Where technical features mentioned in any claim are followed by reference signs, those reference signs have been included for the sole purpose of increasing the intelligibility of the claims and accordingly such reference signs do not have any limiting effect on the interpretation of each element identified by way of example by such reference signs.

Claims

1. An optimized selvage for doors with gaskets and the like, of the type that comprises a frame (2) provided with at least one opening (3), and respective elements (4) for coupling to the installation jamb, characterized in that said opening (3) comprises at least one unit (5) which interferes with said opening (3) and is arranged along it so as to face it, so as to reduce the width of said opening (3), said unit (5) yielding to external forcing actions directed toward the corresponding wall (6) of said installation opening (3).

2. The selvage according to claim 1, characterized in that said interfering unit (5) comprises an elongated element (7), which is substantially parallel and proximate to a wall (6) of said opening (3), and at least one yielding coupling (8) for fixing said element (7) to said frame (2), as a consequence of the deformations of the coupling (8), said element (7) being movable from a first configuration, in which the coupling (8) is inactive, for interference with said opening (3) and partial closure of the width of said opening (3), to a second configuration, in which the coupling (8) is deformed and substantially aligned with said wall (6) of said opening (3), with maximum free width of said opening (3).

3. The selvage according to claim 1, characterized in that said interfering unit (5) is an elastic body which is rigidly coupled to said frame

(2) in at least one of its portions (10), said elastic body being deformable from a first configuration, in the absence of deforming stresses applied thereto, for interference with said opening (3) and partial closure of the width of said opening (3), to a second configuration, in the presence of stresses applied thereto, of substantial alignment with said wall (6) of said opening (3), with maximum free width of said opening (3).

4. The selvage according to claim 3, characterized in that said elastic body is a profiled metallic stem (9) which has at least one end (10) which is stably coupled to said frame (2) and at least one part thereof which interferes with said opening (3).

5. The selvage according to claim 4, characterized in that said profiled metallic stem (9) is stably engaged with its ends (10) on means for fixing said frame (2) and said part that interferes with said opening (3) is the central one (11), which is conveniently curved and protrudes with respect to the wall (6) of said opening (3) to which it is proximate.

6. The selvage according to claim 4, characterized in that said profiled metallic stem (9) is stably engaged with its ends (10) on means for fixing said frame (2) and said part that interferes with said opening (3) is the part that corresponds to the vicinity (12) of its centerline, which is conveniently contoured and protrudes with respect to the wall (6) of said opening (3) to which it is proximate.

7. The selvage according to one or more of the preceding claims, characterized in that it comprises apparatuses for adjusting the protrusion of said interfering unit (5) with respect to the wall (6) of said opening (3).

8. The selvage according to claim 7, characterized in that said adjustment apparatuses comprise threaded elements which are incident to said unit (5), the movement of said elements entailing a variation of the protrusion of said unit (5) with respect to the corresponding wall (6) of said opening (3).

9. The selvage according to one or more of the preceding claims, characterized in that said unit (5) yields with respect to external forcing actions directed toward the corresponding wall (6) of said installation opening according to a predefined elastic constant, in order to determine the desired interference as a function of the limit values provided for external forcing actions.