BE1018424A3 - TELESCOPIC TIP FOR SHAFT SHAFT. - Google Patents

Abstract

The present invention relates to a telescopic nozzle for roller shutter shaft, in particular a telescopic nozzle which allows easy and fast assembly and disassembly of the shaft of the roller shutter and at the same time an adequate adaptation of the length of this shaft to the dimensions of the space in which the roller shutter is to be mounted.

Description

Telescopic end for roller shutter shaft

The present invention relates to a telescopic tip for a roller shutter shaft, in particular a telescopic nozzle which allows easy and fast mounting and dismounting of the shutter shaft and at the same time an adequate adaptation of the length of this shaft to the dimensions of the space in which the roller shutter is to be mounted.

The use of roller shutters in homes and other buildings is widespread and has a number of advantages such as improved burglary protection, better thermal insulation, etc. However, one of the problems encountered during the installation of roller blinds come from the fact that the dimensions of the openings (doors, windows, etc.) that we want to protect, are not standardized and vary greatly. Especially the variation of the width of these openings presents a problem. During their assembly, the roller shutters are placed in a space above the opening to be protected and the winding shaft of the shutter must have a length adapted to the width of this space, or in the case of the use of a safe for shutters, at the distance between the two cheeks of the trunk.

In addition, the mounting of the winding shaft of the roller shutter is made in two steps: first is introduced into one of the side walls tube (maneuvering side, that is to say, motor side, winch maneuver, strap , etc.) equipped with the motor or the tip (not telescopic) which will be connected to the maneuver, then the other side of the tube provided with the telescopic nozzle is introduced into the other side wall. As the sidewalls are at a fixed distance, the useful length of the shaft with endcaps must be lower early in order to be adapted to a longer desired length when fully assembled.

It is known to adapt the length of the roller shutter shaft by systems in which the winding shaft is composed of two parts: an outer shaft and an inner shaft, which can slide longitudinally in the outer shaft. A helical spring is provided which pushes the inner shaft outwards so that the total effective length of the two shafts reaches the desired length. These systems have the disadvantage that over time, the spring elements tend to lose their elastic force which represents the risk that the total useful length would no longer be maintained at the desired length. The use of a helical spring also causes additional deflection forces between the end of the shaft and the surface which supports the shaft, for example the surface of the lateral cheek of the roller shutter box.

In these same systems, the overlapping portion of the two shafts is limited to prevent friction between the inner surface of the outer shaft and the outer surface of the inner shaft becoming too great. Due to the low overlap of the two shafts, the stability of the winding shaft is reduced and the risk of bending of the winding shaft is increased.

These drawbacks have been tried by blocking the useful length of the winding shaft by screws or clamps; all systems require the use of a tool and the time required to perform the blockage, which is far from economical.

The present invention seeks to overcome these disadvantages by a simple system, which allows easy adaptation and rapid locking of the useful length of the winding shaft.

For this purpose, the invention proposes a telescopic end for a winding shaft which comprises an end of axis intended to be housed in one of the side walls of the space provided for the shutter and mechanical means that allow to lengthen the useful length of the telescopic shaft-end assembly and block this useful length to a desired length, the same mechanical means allowing a reduction of this useful length by Γ intervention on a stop.

According to a first variant of the invention, the mechanical means are formed by a rack and said stop, the two cooperating with each other.

According to yet another variant of the invention, the stop is constituted by a lock that can be moved in a slideway.

According to yet another variant of the invention, the stop is constituted by an elastic bracket which can be raised.

According to yet another variant of the invention, the stop is constituted by a V blade and a blocking element of the rack, the latter element being able to be raised by means of the blade V.

According to another variant of the invention, an insertion part is provided between the endpiece and the shaft, the insertion part being integral with the shaft while permitting a longitudinal movement of the telescopic endpiece. Invention, the stop is an integral part of the insertion piece.

According to another variant of the invention, the insert is constituted bytwo shells, one of the shells being placed on the other.

According to another variant of the invention, the insertion piece is constituted bytwo parts, the two parts being assembled before being inserted into the shaft.The invention will be better understood with the aid of the description which follows in referenceaux schematic drawings appended which represent, as nonlimiting examples, some embodiments of the telescopic tip for winding flap.

Figure 1 shows a first embodiment of the telescopic tip according to the invention, front view, with three variants of the locking means of this telescopic tip.

Figure 2 shows the same first embodiment of the end piece according to the invention, but now seen from the rear.

Figure 3 shows a second embodiment of the telescopic nozzle according to the invention, seen before, again with three variants of the unlocking means.

Figure 4 shows the same second embodiment of the end piece according to the invention, but now seen from the rear.

Figure 5 shows a third embodiment of the telescopic nozzle, according to the invention, seen before, with these three variants of the locking means.

Figure 6 shows the same third embodiment of the end piece according to the invention, seen from the rear.

In Figures let 2, variant A, the telescopic tip is constituted by a member (1), the body has a H-shaped section and is provided at one end with an end of axis (2). The shaft end is intended to be housed in a bearing or a bearing, for example provided in the cheek duvolet trunk. As an alternative, the end of the axis may be hollow and a lug may be provided on the cheek around which the axis can rotate. The body of the tip is slidably mounted in an insert (4), within which is provided a cavity with an H-shaped section, adapted to the body section of the tip. When mounting the shutter, the insertion piece (4) is inserted into the winding shaft of the shutter. The section of the traveling dummy shaft can take several forms: it can for example be circular, polygonal or circular with grooves. In all cases, a fixed connection must be provided between the shaft and the insert. In order to secure the insertion piece (4) in the winding shaft and to avoid any linear or rotational movement between the winding shaft and the insert, it is preferable to provide securing means. For this purpose, the exemplary embodiment illustrated in FIGS. 1 and 2 shows a number of ridges (7) projecting from the surface of the insert. The insert with its securing means is dimensioned so that it must be introduced into the winding shaft with a certain pressure force; ainsion obtains a set insert-winding shaft which is integral, without possibility of movement between the two. It is obvious that one can also use other means of connection between the insert and the winding shaft.

By the use of the combined sections of the telescopic end and the cavity, made in the insertion part, a rigid connection is obtained for any rotational movement between the endpiece and the winding shaft while permitting a longitudinal movement of the tip relative to this tree what quidonne the telescopic effect of the tree. When mounting the end-shaft assembly in the space provided for the shutter, the usable length of the shaft assembly with tip can be adapted as needed to the distance between the two cheeks. To block this length to the desired length, the telescopic endpiece is provided with a rack (3) with several screens that cooperate with a stop (5), the whole being arranged so that it can take out the tip of the piece insertion without intervention on the stop while pushing the tip into the insert is onlypossible with a particular intervention on the stop.

According to variant A, the stop is constituted by an elastic latch (5) which is held by a slide (6), provided on the insert and in which the latch can be moved. The stop has a cam to fix its position. When leverrou (5) is introduced into the slide (6) and the bottom end is in one of the notches of the rack, one can increase the useful length of the shaft-tip assembly by pulling on the tip; to reduce the total length, lift the latch and push the bit into the insert.

According to variant B, the stop is constituted by an elastic bracket (8) mounted on the insertion piece; here too, to reduce the useful length of the entire -bre-tip, it is necessary to raise the square to get out the lower end of the square of the notch of the rack in which it was engaged.

In variant C, the stop is constituted by a blade (9) in the form of co-operating with a portion of the front edge of the insertion piece (4). The part of the front front located between the vertical legs of the H is elastic and forms a tongue that is positioned in one of the notches of the rack. The lifting of the blade (9) causes a consequent movement of the tongue portion of the H, which allows the tongue to come out of the notch of the rack.

It is obvious that it is the sawtooth form of the notches of the rack which allows, in the three variants, the unilateral longitudinal movement of the telescopic endpiece relative to the shaft.

Other locking means may also be envisaged, such as for example a simple latch mounted on the insertion piece with a series of holes in the endpiece. With such a solution, however, we lose the advantage of the unidirectional movement of the rack solution with stop.

In FIGS. 3 and 4 a second embodiment is shown according to which the insert is made by two shells (11, 12), which presents a number of advantages when molding the insert. 5 and 6 show an insertion piece composed of two parts (13, 14) which are assembled and then inserted into the winding shaft. Thus, a longer insertion piece can be obtained, which further improves the stability of the winding shaft and its flexural strength.

In all the exemplary embodiments, shown in the figures, the shape of the tip has been chosen to be H because this shape has very advantageous mechanical characteristics. However, other forms of the section are also possible provided that the section of the insert section is adapted.

In the examples described, the telescopic tip is always mounted on the shaft via an insert. It is also possible to provide a direct mounting of the end piece with rack on the winding shaft, the stop being mounted on the latter.

In a preferred embodiment, the inserts and the end pieces are made of a plastic material, but the use of another suitable material is also possible.

It is also advantageous to mold the stops of variants B and C and the slider of variant A together with the insert (Figures 1 and 2) or with the corresponding parts of the insert (Figures 3 to 6). In the same way, the telescopic end (2), the end of axis (2) and the rack (3) can be molded in one operation.

In the figures and the description, technical measures are described in one or more combinations. It is clear that we can consider other combinations, without departing from the scope of the invention.

The invention is not limited to the examples described above and shown in the drawings by way of non-limiting examples, but it also encompasses all variants within the reach of those skilled in the art.

Claims (9)

1. telescopic nozzle (1) for roller shutter shaft which comprises - an end of axis (2) intended to be housed in one of the side walls of the space provided for the shutter and - mechanical means (3, 5) which makes it possible to lengthen the useful length of the telescopic shaft-end assembly and to block this useful length to a desired length - the same mechanical means allowing the reduction of this useful length only by the intervention on a stop (5, 8, 9). 2. telescopic nozzle (1) for shutter shaft according to claim 1 wherein the mechanical means are constituted by a rack (3) and said stop (5,8,9), the two cooperating with each other. 3. telescopic nozzle (1) for shutter shaft according to claim 2 wherein the stop is constituted by a latch (5) which can be moved in a slide (6). 4. telescopic nozzle (1) for shutter shaft according to claim 2 wherein the stop is constituted by an elastic bracket (8) which can be raised. 5. telescopic nozzle (1) for roller shutter shaft according to claim 2 wherein the stop is constituted by a V-shaped blade and a blocking element rack, the latter element can be raised through the blade V. 6. telescopic nozzle (1) for roller shutter shaft according to any one of claims 1 to 5 wherein an insert (4) is provided between the nozzle (1) and the shaft, the insert part being integral with the shaft while permitting longitudinal movement of the end piece. 7. telescopic nozzle (1) for roller shutter shaft according to any one of claims 2 to 6, wherein the stop (8,9) is an integral part of the insert (4). 8. telescopic nozzle (1) for roller shutter shaft according to any of claims 2 to 7, wherein the insert is constituted bytwo shells (11,12), one of the shells being placed on the other. 9. telescopic nozzle (1) for roller shutter shaft according to any one of claims 2 to 7, wherein the insert is constituted bytwo parts (13,14), the two parts being assembled before being inserted into the shaft .