FR2470279A1 - PLASTIC ANKLE - Google Patents

Abstract

The expanding body (10b) of the plastic dowel (10) consists of expanding segments (14a, 14b) which are profiled on the outside and are separated from one another by a slot (13). The end section (11b), which is formed from the segments (14a, 14b), merges into a transition section (11a) with a cavity (12). Longitudinally offset perforations (17) are provided in the transition section (11a). Deformable webs (18) are located between the perforations (17) so that a wood screw which is to be screwed in here is guided better on a relatively long path. The expansion effect of the plastic dowel (10) is not adversely affected in this case.

Description

 The invention relates to a plastic dowel for wood screws, consisting of a cylindrical neck to which is connected an expandable body composed of several expansion segments profiled on the outside, which are separated by slots at least at their ends. opposite the neck and delimit between them a dowel cavity which is connected to a cylindrical bore by a conical transition portion. These plugs are intended to be used as fastening means for building elements on a masonry wall, or the like.

 Anchors of the aforementioned type are known which include a dowel cavity of a determined shape, which in the region of the neck is cylindrical and wider than the diameter of the barrel of the screw, and in the region of the expandable body, is more narrower than the diameter of the screw core. The dowel is split in the body expandable lengthwise and can therefore widen radially when the screw is screwed. The expandable body is divided by the slot into two halves which are each profiled on their outer side and can therefore hang in masonry or the like. In a plug of the usual type, the plug cavity is formed in the region of the expandable body by the substantially flat slot which is not profiled on its inner side.

When a dowel is in place and a suitable screw is screwed into it, it is initially guided by its point only by a short transition portion of the dowel cavity between the cylindrical part and the slotted flat part of the cavity. When the screw enters the slotted flat area of the dowel cavity, it is guided in the slotted area and in the transition portion by the thread which cuts itself.

 This known embodiment has the disadvantage that a screw presented askew - which is very easily possible, given that the cavity of the dowel in the neck is significantly wider than the diameter of the point of the screw - is also skewed in the dowel, given that no guide surfaces have been provided for it and that it is a skew oriented thread which then drives the screw. The spacing of the halves of the expandable body is therefore not carried out as required and the fixing is insufficient.

 The object of the invention is to provide an anchor in material. plastic with an expandable body which can guide the associated screw over a long area without reducing the expansion effect.

 This object is achieved in accordance with the invention in that in the transition portion, each slot is replaced by perforations offset in the longitudinal direction, between which the expansion segments are connected by areas which can extend transversely to the plane of the slot, and that the pads can be extended by bending.

Thanks to the closed configuration of the expandable body according to the invention, the screw is guided over a long area, the widening of the guide portion and therefore the anchoring of the dowel in the masonry is not hampered , since the expansion segments can widen it via the deformable flexible pads which join them.

The invention will be clearly understood on reading the detailed description, given by way of example only, of embodiments shown diagrammatically in the drawing, in which
Figure 1 is a side view of a known plastic plug
Figure 2 is a side view of a plastic plug according to the invention
Figure 3 is a section through the dowel shown in Figure 1 along the line III-III
FIG. 4 is a partial longitudinal section of another embodiment of the anchor according to the invention and
Figure 5 is a side view similar to Figure 1 of another embodiment of the pin according to the invention.

Figure 1 shows a known pin 1 having a neck la and an expansible'lb body. The neck la has the shape of a hollow cylinder whose internal volume constitutes the cavity 2 of the ankle. The neck la is connected to the expandable body 1b, which is divided into two halves 4a and 4b by a diametrical slot 3. The cylindrical cavity 2 of the pin is connected by the conical intermediate portion 5 to the slot 3. When a screw is screwed appropriate screw in the ankle, the body halves move apart and the contoured surface of the expandable body lb is anchored in the material surrounding the ankle. The cylindrical bore of the neck, or the ankle cavity 2 has a larger diameter than the corresponding screw so as not to exert in the neck portion of the dowel bursting effect on the outer perforated portion.

 2 shows a plastic plug 10 according to the invention, which also comprises a neck 10a and an expandable body 10b which is divided into a slotted portion 11b and a transition portion 11a. The neck 10a is produced in the form of a hollow cylinder and delimits the area 12a of the ankle cavity 12. The diameter of the ankle cavity in the area of the neck is, for known reasons, greater than the diameter of the barrel of the corresponding screw. The expandable body 10b is split diametrically from the tip to half; the slot 13 divides the expandable body 10b into two expansion segments 14a and 14b in a portion 11b.

The whole of the expandable body 10b is profiled on the external surfaces, this results in projections 16 which are anchored in the masonry or the like when the expandable body is moved apart.

 The protrusions 16 of the expandable body, or expansion segments have a radial dimension less than the radius of the neck 10a. In the embodiment of Figure 2, each expansion segment 14a, 14b has in the region of the transition portion 11a, next to the profiles, additional locking tabs 19 which project towards the neck 10a. These locking tabs 19, in the relaxed state, project radially outward beyond the neck. The locking tabs 19 can pivot in a diametrical plane of the pin and when they have pivoted to the maximum, they are housed in longitudinal recesses 20 provided radially inside the locking tabs.

 In another development of the plug of the invention a locking tab 19 ′ (cf. FIG. 4) is also located in the transition portion 11a of the expansion body 10b. As in Figure 2, the locking tab 19 'extends from the radially profiled area projecting towards the neck outward. A portion 19a of the locking tab is connected to another portion 19b which extends inwardly forming an obtuse angle with the portion 19a and is slightly shorter than the latter. In the relaxed state, that is to say when the pin is not in place, the portion 19b does not touch the contour of the expansion body 10b. The locking tab protrudes freely from the fact that, starting from the arc of the lita transition portion, it first extends outwards beyond the radius of the neck. The locking tabs 19 'can also pivot in a diametrical plane of the pin and during their maximum pivoting, they come into recesses 20' formed radially inside the locking tabs 19 '.

Unlike the usual plug shown in Figure 1, the slot of the embodiment of the invention does not extend over the entire length of the expansion body 10b. Between the slotted portion 11b and the neck 10a is the transition portion 11a which has recesses 17 offset in the direction of the length, provided on the sides perpendicular to the plane of the slot. The recess 17a which is adjacent to the slotted area is connected to the diametrical slot 13. In the area of this transition portion lita, it results from the recesses 17 of the elastic pads 18 which connect the profiled sides of the body expansion 10b.

 The ankle cavity 12 essentially comprises five portions: in the region of the neck 10a, the cylindrical portion 12 a; connecting to the latter, a conical transition portion 12b which opens into the middle portion 12c situated inside the transition portion; this middle portion is slightly conical and is connected by another conical portion 12d to the slot 13.

The pads 18 of the transition portion are produced in such a way that they can deform when they are subjected to stretching forces, that is to say that, for the smallest possible maximum tension, they support a deformation as large as possible. The mechanism of the deformation corresponds, for example to that of a flexible beam, which is loaded at its end in overhang, from which it results a great bending for a small load on the cross section of tightening.

Figures 2 and 3 show a particular embodiment of the configuration of the transition portion according to the invention, in particular pads 18 and the pin cavity 12c. The ankle cavity 12c here has the shape of a pyramid trunk 21 with a small opening angle, of square section. The pyramid trunk 21, seen in section according to Figure 3, is arranged inside the dowel so that two sides are parallel to the plane of the slot. The recesses 17 are located in the two other lateral surfaces, so that there result pads 18 which have a round contour adapted to the transition portion lita, and a smooth interior contour, formed by the prism 21. The recesses 17 separate from each other stretches 18 extending symmetrically with respect to the plane of the slot; these areas have the shape of a V open towards the neck and whose maximum spacing of the branches corresponds to the width W of the ankle cavity in the middle portion 12c. The principle of the flexible beam, in its use for the function of the tracks 18, is used symmetrically in this embodiment. The beach shaped
V works here as a bent bending spring which is fixed in the expansion segments 14a and 14b.

 As already mentioned, the ankle cavity, in the case of FIG. 2, is produced in such a way that it has five portions, the portion 12a corresponding to the portion 2 and the portion 13 to the portion 3 d 'a common peg. The portion 5 of the ankle cavity of FIG. 1 is replaced by the portions 12b, 12c and 12d.

 The essential portion here is the middle portion 12c which is connected by the conical portions 12b and 12d to the terminal portions of the pin cavity 12a and 13. The width W of this portion is at most equal to the diameter of the core of the corresponding screw. The length of this portion is sufficient to ensure sufficient guidance of the screw before the slotted portion 11b of the expandable body 1Qb widens.

 When the dowel according to the invention is introduced into a hole in a masonry wall or the like, the locking tabs 19 described fold back towards the rear under the effect of the bending preload and are received in the longitudinal recesses 20. It results from the preload of the tongues 19 thus produced a pressure of the tips of the locking tongues on the masonry, which is sufficient to prevent the dowel from turning when the screw is put.

In a development of the invention described with reference to FIG. 4, this locking effect is obtained in an even safer and more efficient manner by the configuration and the position of the locking tabs. In this embodiment, during the introduction of the dowel into the hole in the wall, under the effect of the prestressing, the tongues 19 'are applied against the expandable body and in doing so, they are housed in the recesses 20 'formed inside the tabs. First, the portion 19a is folded inwards in the direction of the cavity 20 'under the bending force. When the portion 19a has tilted by a certain angle, the portion 19b touches the bottom of the cavity 20 'of the ankle, which forms a curved spring. The pressure which can be exerted by this curved spring on the inner upper face of the here the hole is significantly larger than in the case of the tongue 19 made as a simple leaf spring. The rotation lock is reinforced.

 When the dowel is in place, the screw can be inserted. The threads of the tip of the screw first enter the transition portion 12b of the ankle cavity. The transition portion 12b has a relatively small axial length so that the screw penetrates after a few turns in the middle portion 12c of the pin cavity. Since the expansion segments 14a, 14b which surround the middle portion 12c of the ankle cavity in the transition portion area 11a, are interconnected by the pads 18, the expandable body can widen in the area of the transition portion Ila while being oriented, without the screw ceasing to be guided. The resistance to deformation of the expandable portion is that of the pads 18 which is kept low enough that the force necessary to tighten the screw is not excessively increased and that the application by pressure of the ankle in the region of the transition portion 11a is not made difficult The continuous profiling of the expandable body 10b ensures, when it widens, the anchoring of the ankle in masonry, or the like, while ensuring better guidance of the screw. Using the principle described above, the pads stretch during the widening of the middle portion 12c without exerting large tensile forces on the expansion segments; in this case, in the particular embodiment of the ranges which has been described, the angle increases between the branches under the bending force. The embodiment described thus ensures very long guidance of the screw without compromising the anchoring effect of the anchor in the wall. It has the other advantage that, thanks to the different configuration, described above, of the inner surface and the outer surface of the pads, they bulge symmetrically which allows the points of the ankle to anchor also laterally and on each side in the masonry. When the screw enters the slot 13, it is already guided over a large area and can no longer escape from the slot 13. The recesses 17 also provide better retention of the threads of the screw when the screw is screwed -this.

 The length of the neck portions 10a, of the transition portion 11a and of the split portion îîb can vary depending on the developments of the invention, depending on the field of use of the anchor (for example for facades or for hollow blocks).

 For a dowel used for fixing facades, the slotted portion Ilb and the transition portion ila can be of the same length, while the collar 10a is substantially longer.

 For the fixing of building elements on hollow concrete block walls, or in hollow bricks with large air chambers, the transition portion 11a can be notably elongated with respect to the neck 10a and the split portion îîb, to ensure fixing on a transverse rib of the concrete block. The transition portion can, in this embodiment according to FIG. 5, be divided into two portions 31a and 31b, each of which is provided with recesses 17. So that the area 31c between the portions 31a and 31b is elastic, the body expansible is split diametrically in this portion so that the neighboring recesses 17b and 17c of the two portions 31a and 31b are connected by a slot 32.

 The invention is not limited to the embodiment of the anchor described.

Thus, for example, the cylindrical portion 12a of the ankle cavity can be connected to a middle portion 12c having another profile which can extend in the split zone Ilb or in the slot 13. In this way, it is possible to adjust individually for the purpose of using the elasticity of the expandable body. In addition, the ankle cavity of the middle portion 12c is not limited to a rectangular prismatic shape and the number of the expansion segments can vary.

Claims (15)

 1. - Plastic dowel for wood screws, constituted by a cylindrical neck to which is connected an expandable body composed of several profiled expansion segments on the outside, which are separated by slots at least at their ends opposite to the neck and delimit between them a dowel cavity, which is connected to a cylindrical bore by a conical transition portion, characterized in that, in the transition portion (I la) each slot (13) is replaced by recesses (17 ) shifted lengthwise, between which the expansion segments (14) are connected by areas (18) which can stretch transversely to the plane of the slot, these areas can be stretched by bending. 2. - dowel according to claim 1, characterized in that the dowel cavity (12) in the transition portion, has a median portion (12c) slightly pyramidal in the region of the recesses (17). 3. - Anchor according to any one of claims 1 and 2, characterized in that the areas (18) are symmetrical relative to the median longitudinal plane of the corresponding slot (13) and are inclined relative to this plane.  4. - Dowel according to all of claims 1 and 3, characterized in that the areas (18) are V-shaped with the tip oriented towards the slot. 5. - Anchor according to any one of claims 1 to 4, characterized in that the maximum spacing between the branches of the pads (18) is substantially equal to the width of the ankle cavity (12) nearby.  6. - dowel according to any one of claims 1 to 5, characterized in that, in the transition portion (12c), the dowel cavity (12) has the longitudinal profile of a slightly conical prism, the most of which large width (W) is at most equal to the diameter of the core of the associated wood screw, and that the recesses (17) are perpendicular to the surfaces of the prism. 7. - dowel according to claim 6, characterized in that the cross section of the prism is square and the expandable body is divided into two halves by a diametrical slot (13) in the slit area (1 lob), two sides of the prism being parallel to the plane of the slot.  8. - Dowel according to any one of claims 1 to 7, characterized in that the transition portion (lita) has on the outside, on the sides parallel to the longitudinal slot, at least one locking tab (19) oriented towards the neck (10a) against the profiled casing of the expansion half (14).  9. - Anchor according to claim 8, characterized in that the locking tabs (19) can pivot transversely to the longitudinal axis of the ankle, projecting freely in overhang and that they have one end (19b ) angled towards the neck (10a), for which is provided, on the expansion half (14 ') an axial cavity (20') located in the lateral surface.  10. - Dowel according to claim 9, characterized in that the cavity (20 ') is extended axially to the root of the locking tab, in the form of a radial cavity.  11. - Dowel according to one of claims 1 to 10, characterized in that the transition portion (lita) and the split portion (11b) have substantially the same length, and the neck (10a) is shorter than the portion of transition (lita).  12. - Plastic dowel used in connection with a frame according to one of claims 1 to 10, characterized in that the transition portion (1 la) and the split portion (1 lb) have substantially the same length, and the neck (10a) is substantially longer than the transition portion (IIa). 13. - Plastic plug used in connection with hollow concrete blocks according to any one of claims 1 to 10, characterized in that the transition portion (1 la) is considerably extended relative to the neck (10a) and the split portion (it).  14. - Dowel according to claim 13, characterized in that the transition portion (I la) comprises two rows of recesses (17) axially distant, and that the neighboring recesses (17b and 17c) of the two rows are connected by a diametral slot (32). 15. - Anchor according to any one of claims 12 to 14, characterized in that the prismatic ankle cavity (21) of the transition portion (pila) extends in the split zone (lob).