FR2958352A1 - ANTI-BREAKING SCREW AND FASTENING SYSTEM USING SAID SCREW. - Google Patents

Abstract

The invention relates to a screw (1) comprising a rod (2) and a head (3), the head having at its end opposite the rod at least two surfaces (4, 5) substantially transverse to the axis (X- X ') of the screw, axially offset with respect to each other and interconnected by at least one connecting surface (10) which extends substantially axially, in which the cross section of the at least one connecting surface (10) is an open curve. This arrangement allows a great variability of form from one screw to another, forms on which the standard tools have no decision. The invention also relates to a screwing bushing specially adapted to such a screw, as well as to a fastening system comprising such a screw and such a screwing bushing.

Description

The invention relates to the field of screws for securing two objects, more particularly screws whose conformation of the head allows a high variability from one screw to another, so as to be able to be implemented only at the using a tool adapted to each screw. These screws are called break-in or burglar-resistant screws because they can not be disassembled with a standard tool.

Certain objects having a certain economic value are installed on supports accessible to any person, for example on the wall or the roof of a building, the building being able to be isolated. An object secured by a widely diffused means such as a screw or screw-nut system can be easily disassembled and stolen. There are known safer attachment means such as anchoring in a masonry or welding on a metal structure, but it is often useful that the object in question can be easily removed by its owner, for example for maintenance. Stopper systems are also known which have two ends, a first male end having, from one plug to the other, a high variability and which cooperates with a screw whose head has a corresponding female footprint, and a second end. , male or female, which cooperates with a standard tool. The screw can be disassembled with a standard tool only when the plug corresponding thereto has previously been inserted into the head. A disadvantage of these screws is that their heads are imprinted in the form of a relatively deep cavity which, when exposed to the weather, can eventually become filled with debris. Their implementation then requires the complete emptying of this cavity to be able to introduce the male part of the plug, which can be tedious. The present invention has a burglar-proof screw, a screw-in socket and a fastening system which do not have this disadvantage.

For this purpose, the invention proposes a screw comprising a rod and a head, the head having at its opposite end to the rod at least two surfaces substantially transverse to the axis of the rod, axially offset relative to one another. other and interconnected by at least one connecting surface which extends substantially axially. In the invention, the cross section of the at least one connecting surface is an open curve.

All known screws have a head which comprises at least two surfaces transverse to the axis of the screw, axially offset relative to one another and connected together by at least one connecting surface which extends substantially axially . For example, a conventional screw which has a groove for receiving the end of a screwdriver has three transverse surfaces, two of which constitute the top of the screw head and the other the bottom of the groove. These surfaces are connected by connecting surfaces which are axial planes. The cross-section of these connecting surfaces gives two straight lines, ie two open curves instead of a single open curve.

In another known type of screw, the screw head comprises a cavity recess which constitutes a cavity. Such a screw has two transverse surfaces and an axial connecting surface. The cross section of this surface is a closed curve. The invention can also be characterized, when it comprises only two transverse surfaces, in that the axial connecting surface comprises edges parallel to the axis of the screw and formed in a lateral surface of the head. This is the condition in fact for the cross section of this surface to be an open curve. Nevertheless, the invention can be generalized to a screw head comprising a plurality of axially offset transverse surfaces, connected to each other by a respective substantially axial connection surface, the cross section of each connecting surface being an open curve. .

Advantageously, the cross section of the at least one connecting surface may be a straight line, a circular arc or a V-shaped arc. Any other fottne is also possible, for example undulations, provided that this cross section remains an open curve . It may also include indentation (s), in number, shape and arrangement that may be different from one screw to another. This has resulted in a family of screw heads with high variability from one screw to another, and can only be implemented by a tool adapted to each. Advantageously, the screw may comprise a flange between the head and the rod. This flange can provide a support plane to a tool for operating the screw.

The invention also relates to a screwdriving tool having an axial elongation direction and comprising at a first end at least two surfaces substantially transverse to said axis, axially offset relative to one another and interconnected by at least one a connecting surface which extends substantially axially. The cross section of the at least one connecting surface is an open curve. Advantageously, the cross section of the at least one connecting surface is a straight line, an arc of a circle or is V-shaped. It may also have indentation (s). its ends, this tool has "hollow" the same conformation as the screw according to the invention. When this conformation corresponds exactly to that of a screw according to the invention, in shape and size, the tool can cooperate with the head of the screw to maneuver the latter.

The invention also relates to a screw socket comprising: - a screwdriver according to the invention, - a sleeve surrounding a portion of a lateral surface of said tool in the vicinity of its first end and extending axially beyond transverse surfaces to the axis of the tool. From the tool according to the invention, a screwing bushing is obtained when a sleeve, which extends beyond the transverse surfaces, is fixed to the end of the tool which has the impression "in hollow "of a screw. In use, this sleeve is applied to the flange of the screw and the sleeve encloses the head of the screw, ensuring a good drive of the screw by the socket. The screw can be removed or installed in an inaccessible location. In this case, it is useful for the screw socket to keep the screw at least temporarily at its end while it is not engaged. One known way for this is to use magnetism. However this solution is not applicable when the screw used is made of a steel which is not ferromagnetic, for example a stainless steel. Advantageously, the socket according to the invention may comprise: - a screwing tool further comprising a radial cavity, opening through a first opening on a connection surface and by a second opening on the lateral surface of said tool, - a moving part slidably mounted within said cavity, the movable part and the cavity being shaped so that the movable part may have at its first opening a protruding nipple without being able to pass through this first opening; resilient within said cavity, bearing on an inner surface of said sleeve and said movable member, so as to push the movable member inwardly of said sleeve. In this way, when the stud of the movable piece protrudes on a radial surface of the tool, it presses on a corresponding radial surface of the screw head, and the screw is held inside the socket by friction of the head of the screw on the inner surface of the sleeve. The user can hold it at least temporarily at the end of the socket, either to extract it or to present it to its housing.

Advantageously, the moving part may comprise a non-through cavity inside which said elastic means takes place. Advantageously, the screwing tool of the sleeve may comprise at a second end a gripping means for printing a rotational torque to said sleeve.

For example, the second end of the screwing tool may include a "hexagon" drive, a female keylock key, a cross rod or a handle. The invention also relates to a fastening system comprising a screw according to the invention and a screw socket according to the invention.

In the case of a screw made of a stainless steel, the sleeve may comprise, as has been seen above, a movable part in a radial cavity and adapted to press against the head of a screw inserted into the socket.

Embodiments and variants will be described hereinafter, by way of non-limiting examples, with reference to the accompanying drawings in which:

FIGS. 1A, 1B and 1C respectively represent a screw according to the invention, a screwing tool adapted to the screw, shown in perspective, and a cross section of this screw head, FIGS. 2A and 2B respectively represent Another embodiment of the screw according to the invention shown in perspective and a cross section of this screw head. FIGS. 3A, 3B and 3C show cross-sections of other embodiments of the screw head according to FIG. FIG. 4 shows another embodiment of the screw head according to the invention in perspective. FIG. 5 is an exploded perspective view of a screw and a screw socket according to the invention.

FIG. 6 shows in axial section a screwing bushing and screw portion engaged with each other.

The screw 1 illustrated in FIGS. 1A and 1C comprises a rod 2 which extends along a longitudinal axis XX 'of the screw and a screw head 3. A flange 20 extends radially between the rod 2 and the head 3. 20 The head 3 of the screw comprises two substantially planar surfaces, a first surface 4 and a second axially offset second surface 5, which extend radially, ie substantially orthogonal to the axis XX 'of the screw, and offset longitudinally. These radial surfaces are connected by a substantially axial surface, that is to say substantially parallel to the axis of the screw. In the example shown, the surface 10 has the shape of a wedge whose opening angle A is substantially equal to 120 ° and whose tip is on the axis of the screw. As illustrated in Figure 1C, the cross section 10t of this screw head by a plane between the first and second surfaces 4, 5 has the shape of a V, ie is an open curve. As illustrated in FIG. 1A, it is observed that this connecting surface 10 has edges 10a and 10b parallel to the axis X-X 'of the screw and formed in a lateral surface 22 of the head. Of course, other shapes are possible from this base, for example by changing the opening angle of the V, by not positioning its point on the axis of the screw, giving a rounded to the branches of the V, by adding a bulge 10c to the tip of V. FIGS. 2A and 2B illustrate another embodiment of the invention. The connecting surface 10 this time has the shape of a portion 10 of cylinder; its cross section 10t by a plane between the first and second surface 4, 5 has the shape of a circular arc of radius R passing through the axis of the screw, that is to say is a continuous curve. On this basis it is possible to obtain other shapes for example by changing the value of the radius R, by not passing the arc of the circle by the axis of the screw. FIGS. 3A-3C illustrate other forms of connecting surfaces 10 by their section 10t: respectively a circular arc with a tooth, an omega shape and a corrugated shape. All these curves 10t are open curves. FIG. 4 illustrates an embodiment with three radial surfaces 4, 20, 5, 6 connected by two axial surfaces 10, 11. The cross section 10t (not shown) of the first connecting surface 10 by a plane between the first and second surfaces 10, 11. second surfaces 4, 5 has a shape of a convex circular arc and comprises an indentation; the cross section bed (not shown) of the second connecting surface 11 by a plane 25 between the second and third surfaces 5, 6 has a shape of a concave arc. Note that the connecting surfaces are substantially axial to allow the application on the screw head of a tool for manipulating the screw.

It is easily conceivable that the invention: makes it possible to create an infinity of different shapes for a screw head 3 by adopting different shapes for the connection surfaces 10, 11, and that these shapes can provide impressions on which known tools such as screwdrivers have no grip. Only a specially adapted tool can allow to drive such a screw in rotation.

FIG. 5 illustrates a screwing system comprising a screw according to the invention 1 and a screwing bushing 150 specially adapted to this screw. The screw socket 150 extends along a Y-Y 'axis and has a screw tool 100 which includes a first end 100a and a second end 100b. As illustrated in FIG. 1B, the screwing tool 100 comprises at its first end 100a two axially offset radial surfaces, a first surface 104 and a second end surface 105, connected by an axial surface 110. In the illustrated example , the section of this axial surface 110 by a plane transverse to the axis YY 'and between the two radial surfaces 104 and 105 has the shape of a V, which is an open curve. In the example illustrated in FIGS. 1A and 1B, the profiles of the screw head 3 and of the first end 100a of the screwing tool 100 are complementary, that is to say that the connection surfaces 10 and 110 have exactly the same shape and dimensions, so that when the tool 100 is brought closer to the head of the screw 3, the second end surface 105 of the tool 100 can be applied to the first surface 4 of the screw head and the first surface 104 of the tool 100 can be applied to the second top surface 5 of the screw. In this sense, the tool 100 is specially adapted to the screw head 3. It will be appreciated that for each screw head shape according to the invention, as illustrated above, it is possible to design a screwdriver which has " hollow »exactly the same reliefs that the screw has protruding, so a tool specially adapted to the implementation of the corresponding screw and only it. The screwing tool comprises at the first end 100a a cylindrical lateral surface 120 and a radial shoulder 121 which leads to an enlargement of the radius of the tool. It has at its second end 100b a hexagon nut 140 which allows to operate the screwing tool with a standard key. A screwdriver socket 150 according to the invention comprises: a screwdriving tool 100 as seen above; - A sleeve 132 at the first end 100a of the screwing tool, taking place on the cylindrical side surface 120 of the tool to the radial shoulder 121. This sleeve 130 can be threaded in force on the tool or attached to the tool by gluing, welding or any other means. The sleeve is longer than the distance between the shoulder 121 and the second end surface 105 and its inside diameter is equal to that of the head of a screw, so that when the sleeve 132 is in place, its free edge 132a extends beyond the end surface 105; the sleeve then defines, at the end of the socket, a cavity in which the head 3 of a screw can take place; - A radial through cavity 130, opening through a first opening 110a (not shown) on the connecting surface 110 and a second opening 120a on the side surface 120 of the tool - a movable part 131 slidably mounted on the inside of this cavity 130, the moving part and the cavity being shaped such that the moving part may have at the first opening 110a a protruding nipple without being able to cross this first opening 110a; for example, this opening has a narrowing that the moving part 130 can not cross; a spring 135 inside the cavity 130, resting on an inner surface of said sleeve 132 and on the moving part 131, so as to push this movable part 131 towards the inside of the sleeve, so as to project the nipple by the first opening 110a. When the sleeve 132 is in place, the moving part 131 is thus trapped inside the cavity 130. In order to provide sufficient space for the spring 135, the moving part may comprise a non-through cavity 131a. in which the spring 135 takes place. When a bushing 150 adapted to a particular screw head 3 is applied to this screw head, the free edge 132a of the sleeve comes into contact with the collar 20 and the head of the screw takes place in the cavity. With the head of the screw held in place in the cavity and the two axial connection surfaces of the screw head 10 and the sleeve 110 being in contact, the user can drive the screw in rotation by exerting a torque on the Nut 10 hexagon 140 of the socket. The stud exerts on the axial connecting surface 10 of the screw head a sufficient pressure to hold the screw 1 at the end of the sleeve 150 before it is put in place or after its extraction, by friction of the head 3 of the screw on the inner surface of the sleeve. Screws used outdoors, for example to fix photovoltaic panels, are made of stainless steel so as to withstand bad weather, and magnetism, usually used to hold a screw at the end of a screwdriver, is not applicable. stainless steels not being ferromagnetic.

Claims (12)

Revendications1. Screw (1) comprising a rod (2) and a head (3), the head having at its end opposite the rod at least two surfaces (4, 5, 6) substantially transverse to the axis (X-X ') of the screw, axially offset relative to one another and interconnected by at least one connecting surface (10, 11) which extends substantially axially, characterized in that the cross section (10t, 11t) at least one connecting surface (10, 11) is an open curve. 2. Screw according to claim 1, characterized in that the cross section (10t, 11t) of the at least one connecting surface (10, 11) is a straight line, a circular arc or is V-shaped. 3. Screw according to claim 2, characterized in that the cross section of the at least one connecting surface (10, 11) further has at least one indentation. 20 4. Screw according to one of claims 1 to 3, characterized in that it comprises a flange (20) between the head (3) and the rod (2). 5. A screwing tool (100) having an axial elongation direction (Y-Y ') and having at one end (100a) at least two surfaces (104, 105, 106) substantially transverse to said axis, axially offset relative to each other and interconnected by at least one connecting surface (110, 111) which extends substantially axially, characterized in that the cross section of the at least one connecting surface (110t , Mt) is an open curve. 2958352 - 12 - 6. Screwdriver (100) according to claim 5, characterized in that the cross section of the at least one connecting surface (110, 111) is a straight line, a circular arc or is V-shaped. 7. Screwdriver (100) according to claim 6, characterized in that the cross section of the at least one connecting surface (110, 111) further has at least one indentation. 8. screwing sleeve (150) comprising: - a screwing tool (100) according to one of claims 5 to 7, - a sleeve (132) surrounding a portion of a side surface (120) of said tool in the vicinity its first end (100a) and extending axially beyond the surfaces (104, 105, 106) transverse to the axis (Y-Y ') of the tool. 15 9. screwing sleeve (150) according to claim 8, characterized in that: - said screwing tool (100) further comprises a radial cavity (130), opening through a first opening (110a) on a connecting surface ( 110, 111) and by a second opening (120a) on the lateral surface (120) of said tool, - a movable part (131) slidably mounted inside said cavity (130), the moving part and the cavity being shaped in such a way that the moving part can present at a level of said first opening (110a) a projecting stud without being able to cross this first opening (110a), - an elastic means (135) inside said cavity (130), taking pressing on an inner surface of said sleeve (132) and said movable member (131), so as to urge said movable member (131) inwardly of said socket. 5 10 2958352 - 13 - 10. screwing bush (150) according to claim 8 or 9, characterized in that said movable part (131) comprises a non-through cavity (131a) within which takes place said elastic means (135). 11. screwing sleeve (150) according to one of claims 8 to 10, characterized in that the screwing tool comprises at a second end (100b) a gripping means (140) for printing a torque to said socket. 12. Fastening system comprising: - a screw (1) according to one of claims 1 to 4, - a screw socket (150) according to one of claims 8 to 11.