FR2940376A1 - ASSEMBLY DEVICE - Google Patents

Abstract

The invention relates to an assembly device (1) comprising an axial clamping device (2) having a rod (3) with a head (3a) and at least one threaded section, a washer (4), and a nut ( 5), which comprises: - means (6) for receiving and axially retaining the nut (5) while blocking it in rotation, and - breaking means (9) shaped to break beyond a torque predetermined clamping force applied on the rod (3).

Description

The present invention relates to the assembly of two elements, and more particularly the assembling devices for producing such an assembly, the tools for clamping such an assembly device, and the assembly methods involving such an assembly device.

The invention more particularly relates to the assembly of two structural elements of a building, for example two vertical walls, a vertical wall and a horizontal wall, a vertical wall and an oblique wall, respectively forming the walls, the floors, the slabs. and the roof elements of a building.

It is already known to assemble a vertical wall with another vertical wall or with a horizontal wall. To do this, the two walls to be assembled are positioned in their assembly position. To achieve the assembly, an operator must position at the joint between these walls of the generally metal profiles of plates or brackets type according to the assembly to achieve. These profiles are attached to both of the walls to be assembled. These profiles are fixed by means of multiple nails and screws specially adapted to the materials constituting the walls and the type of assembly. It is the operator who determines the number of profiles required to make the assembly, as well as the places where they must be positioned. It is the operator who sets the nails and screws. A disadvantage is that the quality of the assembly and therefore the building depends on the operator, who must be specially qualified and conscientious to position the profiles in the right places and in sufficient numbers to ensure the good mechanical strength of the building.

A further disadvantage is the use of simple screws. Indeed, no maintenance of the screws in the tight state is assured. In case of earthquakes or strong winds, the building is vibrating and moving. The screws thus tend to unscrew. The mechanical strength of the building is then no longer assured.

It was then thought to improve the assembly of two walls by providing an axial clamping device of the screw-washer-nut type. Such a device makes it possible to ensure effective tightening of the screw. Unintentional loosening of the screws is therefore limited. A disadvantage of such a device is that the screws must be through. Each screw must pass through the wall into which it is inserted so that the nut can be positioned by the operator to provide the desired axial clamping. The washer is provided under the head of the screw to prevent damage to the surface of the wall when tightening. One can easily imagine that when the vertical walls constitute the outer walls of a building, the end of the through screw and the nut are outside the building. The weather conditions deteriorate the parts of the axial clamping device that are outside the building, namely a portion of the screw shaft and the nut. When damaged, the nut can no longer perform its role of tightening. The mechanical strength of the building is no longer assured. Thus, in case of earthquakes or strong winds, the stresses to the building may loosen the nut. In addition, the quality of the assembly made by the use of such axial clamping devices is dependent on the know-how and competence of the operator, as well as the quality of the tightening performed. Indeed, axial clamping devices do not include specific mechanical means to control their clamping. It is the operator who decides when the required tightening is achieved during assembly, and no means are available to know the causes of any subsequent tightening defect. A first problem proposed by the present invention is to provide an assembly device which allows assembly of wall-type elements of a building which is reliable and fast and whose tightening is controlled. A second problem proposed by the present invention is to design a set of wood panels assembled reliably, fast and whose tightening is controlled. A third problem of the present invention is to provide a clamping tool which is adapted to the assembly device according to the first aspect of the invention to allow rapid and reliable clamping. A fourth problem of the present invention is to provide a method of assembling two wood panels that is easy to implement. To achieve these and other objects, the invention provides an assembly device comprising an axial clamping device having a shaft with a head and at least one threaded portion, a washer, and a nut, further comprising: means for receiving and axially retaining the nut while blocking it in rotation, and breaking means shaped to break beyond a predetermined tightening torque applied to the rod. In such an assembly device, the axial clamping device is used in a state already assembled unlike the devices of the prior art. The operator who performs the assembly does not waste time to assemble the rod, the washer and the nut. Thus, the operator saves assembly time. The assembly device consists of the cooperation of only two elements, namely the axial clamping device, and the means for axially receiving and retaining the nut while blocking it in rotation. The operator has only one element to manipulate to position and realize the assembly. The assembly is fast. According to the invention it is not necessary that the rod of the axial clamping device passes through one of the elements to be assembled. As a result, such an assembly device is designed to have no part outside the building. Weather and other harsh climatic conditions then have no impact on such an assembly device. The assembly thus produced is reliable over time. As the operator does not have to move to the other side of the element to be assembled to ensure clamping, unlike the devices of the prior art, the assembly is even faster. Also, such an assembly device comprises break means which are means specifically designed to break when a predetermined tightening torque is reached. The clamping performed until the breakage of these breaking means is then independent of the skill or strength of the operator to tighten the axial clamping device, contrary to what happens in the prior art. The tightening is thus controlled. Advantageously, it can be provided that: the nut comprises at least two diametrically opposed fins which extend radially outwards, the means for axially receiving and retaining the nut comprise two opposing housings each shaped to receive a fin of the nut. A nut with two diametrically opposed fins is easy and inexpensive to manufacture. The cooperation of the nut and means for axially receiving and retaining the nut allows an effective, reliable and automatic locking of the rotation of the nut.

Advantageously, it is possible for the head of the rod to be cylindrical with a circular cross section and comprises radial protuberances able to break beyond a predetermined tightening torque applied to the rod.

Such a design is simple, and such excrescences are easy and inexpensive to make. These protuberances constitute the breaking means which are capable of breaking beyond a predetermined tightening torque. Providing the means of rupture in the head of the rod allows these 5 protrusions to participate in the grip of a clamping tool to allow clamping. In addition, the broken protrusions are a visual indicator of the good quality of the initial tightening of the axial clamping device. Advantageously, it can be provided that the radial protuberances are a pin reported in the head of the rod.

It is easy to provide that the pin is embedded in the head of the rod prior to its use for assembly. Thus the operator does not waste time. It can be advantageously provided that the head of the rod comprises a diametrical passage adapted to receive a spare pin.

Thus, after the breaking means have been broken when the desired tightening of the clamping device has been achieved, an emergency pin can be inserted into the head of the rod. This spare pin will act as a catch for a clamping tool used to loosen the axial clamp and tighten it later.

Advantageously, it can be provided that the assembly device comprises a cradle having a main wall in which is formed a light shaped to allow the passage of the nut while retaining the washer, and at least two side walls. The cradle is adapted to be attached to an element to be assembled.

The cradle shape allows a better distribution of forces with respect to an L shape for example. The dimensions of the light make it possible to retain the washer. The puck can play its role. Advantageously, the light has an oblong shape. This allows the passage of the nut and its fins oriented along the length of the light. It can be provided that the threaded portion has an irreversible screw pitch. In this way, the screw-nut assembly can not be unscrewed without voluntary human intervention, for example as a result of vibrations (earthquakes, storms ...).

According to a second aspect, the invention proposes a set of walls of a wooden panel type building, the wood panels being fixed to each other by assembly devices according to the first aspect of the invention.

The use of such an assembly device allows a quick and reliable assembly whose tightening of the clamping device is controlled. According to a third aspect, the invention proposes a clamping tool adapted for clamping the assembly device according to the first aspect of the invention.

This clamping tool is adapted to cap the head of the rod, and it has at least two notches to receive the breaking means. The clamping tool is specially adapted to the assembly device according to the first aspect of the invention. The tightening is therefore adapted. The means of rupture thus constitute means for gripping the tool 10 on the head of the rod which is cylindrical with a circular section. It is advantageous that the at least two notches are adapted to receive a spare pin. Thus the same clamping tool makes it possible to tighten and loosen the assembly device.

According to a fourth aspect, the invention proposes an assembly method using the assembly device as defined above, which is easy to use by any operator, without the need for a high qualification. Such a method comprises the following steps: - provide a cradle, 20 - provide a recess in a first wooden panel, - adapt the cradle to cover the recess so that the main wall of the cradle ensures the continuity of the singing of the first wooden panel, the lateral faces of the cradle being applied to the main faces of the first wooden panel, 25 - providing means for axially receiving and retaining the nut, - providing a through cavity in the second wooden panel, - fixing the means for axially receiving and retaining the nut in the through cavity, - positioning the first and second wood panels so that the cradle faces the means for axially receiving and retaining the nut, - introducing the axial clamping device from the cradle through the light through the nut that penetrates to reach the housing means to receive and axially retain the nut, - pivot the disp axial clamping device for locking the rotating nut, - providing a tool for clamping according to the third aspect of the invention, - tightening the nut with the tool for tightening up at breaking of the breaking means indicating that the predetermined tightening torque is reached.

Such an assembly method is easy to implement and quick to perform. According to a fifth aspect of the invention, it can be provided that the wood panels comprise guiding means to allow the progressive positioning of the wood panels relative to one another. The guide means allow the correct positioning of the wood panels relative to each other and also participate in the joining of wood panels in one direction. Advantageously, it can be provided that the guide means 10 provide relative oblique movement of the wood panels relative to each other on their approach to the assembly position. The progressive guidance makes it possible to position the panels without friction, and therefore without wear or degradation of the contact surfaces of the panels.

It will be noted that the guide means and the assembly means according to the invention constitute two structures which can be used in a complementary manner for the assembly of panels. But the guide means and the assembly means can also be used independently of each other. It is indeed possible to design panels tight in position by assembly means according to the invention, but without guide means according to the invention. Conversely, it is possible to design panels guided by the guide means according to the invention but without the assembly means according to the invention as held tight by their weight alone or by different clamping means.

Other objects, features and advantages of the present invention will become apparent from the following description of particular embodiments, with reference to the accompanying figures, in which: FIG. 1 is a schematic view of an axial clamping device according to one embodiment of the invention; FIG. 2 is a diagrammatic view of means for axially receiving and retaining the nut according to one embodiment of the invention; FIG. 3 is a schematic view of a cradle according to one embodiment of the invention; FIG. 4 is a schematic view of an assembly device in an assembled state according to an embodiment of the invention; FIG. 5 is a perspective view of a set of two wooden panels in a state not yet assembled according to one embodiment of the invention; FIG. 6 is a perspective view of a set of two wood panels assembled by an assembly device according to one embodiment of the invention; FIG. 7 is a perspective view from below. of the whole of Figure 6; Figure 8 is a perspective view of a tool according to one embodiment of the invention; Figure 9 is a perspective view of the assembly of Figure 6 with a tool being clamped; FIG. 10 is a sectional view of a set of two wooden panels being positioned by guide means according to two embodiments; FIG. 11 is a perspective view illustrating the oblique approach movement for the assembly of three trihedral panels; and FIGS. 12 and 13 respectively show, in cross-section on the right side and in front view, the guide means for the oblique approach movement of FIG. 11. FIG. 1 illustrates an axial clamping device 2 comprising a rod 3 with a head 3a, a threaded portion 3b (not shown in detail), a washer 4 and a nut 5. The nut 5 comprises two fins 5a and 5b which are diametrically opposed and which extend radially towards outside. In the embodiment shown in this figure, the head 3a of the rod 3 comprises two diametrical passages 10a and 10b which are offset by a quarter of a turn relative to each other. These two diametrical passages 10a and 10b are also offset along the longitudinal axis of the rod 3.

The diametrical passage 10a serves as a housing for a pin 9. When the pin 9 is embedded in the diametrical passage 10a, the ends of the pin 9 protrude to extend outwardly. The parts of the pin 9 that protrude are excrescences that can be used as a grip for a clamping tool 13 (Figure 8). The pin 9 is the element which is designed to act as a breaking means in this embodiment, as will be described later. In the context of the invention, the axial clamping device 2 of Figure 1 is designed for an operator to use in the previously mounted state (Figure 1) when performing an assembly. FIG. 2 illustrates means 6 for axially receiving and retaining the nut 5. These means are in the form of a housing 6 which comprises a tube 60 having a longitudinal axis 1-1 and a substantially rectangular section producing at least two walls lateral 600a and 600b parallel two by two.

Each of the sidewalls 600a and 600b includes a housing 8a, 8b. The two housings 8a and 8b are symmetrical with respect to each other in a central symmetry around the longitudinal axis 1-1 of the tube 60. These housings 8a and 8b are substantially rectangular in shape with rounded corners 5. The rounded corners make it possible to match the shape of the fins 5a and 5b of the nut 5 to ensure optimal locking of the nut 5. The casing 6 is intended to be fixed to the one P2 (FIGS. 6, 7 and 9 ) of two elements P1 and P2 to be assembled. The housing 6 can be introduced into a through cavity 16 (FIG. 7) of the element P2 (FIGS. 6, 7 and 9), and then it can be fixed by its base 7 by means of conventional mechanical fixing elements of the type screw. The housing 6 of Figure 2 comprises two additional housing 80a and 80b. These two additional housings 80a and 80b make it possible to carry out two assemblies to assemble three elements, two of which are on top of one another. Each of the assemblies comprises an axial clamping device 2, such as that illustrated in FIG. 1. FIG. 3 illustrates a cradle 11. This cradle 11 is able to be fixed to an element P1 (FIGS. 6, 7 and 9) to to assemble. The cradle 11 has a main wall 11a in which is formed a slot 110 shaped to allow the passage of the nut 5 while retaining the washer 4, and at least two side walls 11b, 11c. In the illustrated embodiment, the light 110 has an oblong shape. The small axis of the light must be smaller than the diameter of the washer 4, so that the washer 4 is retained by the main wall 11a. It must also be smaller than the width of the axial clamping device at the nut and its fins 5a and 5b, to prevent the passage of the axial device 2 in the direction of the minor axis. The long axis of the light must be greater than the width of the axial clamping device 2 at the nut 5 and its fins 5a and 5b, to allow the axial clamping device to pass through with the fins 5a and 5b oriented in that direction.

The side walls 11b, 11c of the cradle 11 comprise respective median notches 11d and 11e to allow the passage of a clamping tool (for example, the clamping tool 13 in FIG. 9). FIG. 4 illustrates an assembly device 1 which is an assembly of the elements of FIGS. 1 to 3. Thus, the assembly device 1 comprises an axial clamping device 2 (FIG. 1) with a nut 5, a housing 6 (FIG. Figure 2) to receive and retain the nut 5, and a cradle 11 (Figure 3). The cradle 11 is intended to be fixed to a first element P1 (FIGS. 6, 7 and 9), and the housing 6 is intended to be fixed to the second element P2 (FIGS. 6, 7 and 9), the elements P1 and P2 to be assembled. To arrive at the configuration of FIG. 4, the axial clamping device 2, previously assembled as in FIG. 1, is introduced axially into the housing 6 from the cradle 11 through the light 110. introduction of the axial clamping device 2 until the nut 5 is at the height of the openings 8a and 8b of the housing 6. The operator must then pivot the axial clamping device 2 by a quarter turn around the axis 1-1 to engage the fins 5a and 5b of the nut 5 in the slots 8a and 8b of the housing 6 and thereby to lock the nut 5 in rotation. The operator must then tighten (arrow 13c of Figure 9) the axial clamping device 2 using a specific tool 13 (Figure 8) clamping acting on the head 3a. When the predetermined tightening torque is obtained, the pin 9 breaks. The clamping is then automatically interrupted, the assembly device 15 is thus correctly assembled. By properly tightening the assembly device 1, the pin 9 is broken. One can imagine that for maintenance reasons, it is desired to loosen the assembly device 1. Now, as the pin 9 is broken, the tool 13 (Figure 8) has more hold to loosen. Therefore, in the head 3a there is provided another diametrical passage 10b for receiving a spare pin (not shown). This spare pin will serve as a socket for the tool 13 for loosening, then for a possible subsequent tightening. Figure 5 illustrates two wood panels P1 and P2 being brought together to be positioned to be assembled. To assist in the proper positioning of the two panels P1 and P2 with respect to each other, each of the panels P1 and P2 may comprise at least two cavities 17a, 17b and 170a, 170b respectively, provided in the faces of the panels which will be in touch in the assembly. The cavity 17a is provided to correspond to the cavity 170a, and the cavity 17b is provided to correspond to the cavity 170b. Prior to assembly, guiding means 12a and 12b such as rods are introduced into the cavities 170a and 170b of the lower panel P2. A section of the guide means 12a and 12b remains protruding out of the cavities 170a and 170b. Thus, when the panel P2 is brought to the panel P1 to take its assembly position, the protruding sections of the guide means 12a and 12b will help the positioning of the panel P2 relative to the panel P1 by penetrating the cavities 17a and 17b.

FIGS. 6, 7 and 9 illustrate a set of two wooden panels P1 and P2 assembled with an assembly device 1 (FIG. 4) in different views. Figures 6 and 9 are views taken from the inside of the dihedron formed by the perpendicular panels P1 and P2. Figure 7 is taken from the outside of the dihedron. A recess 14 is provided in the first wooden panel P1. The cradle 11 is fixed to the first wooden panel P1 so that the main wall 11a of the cradle 11 ensures the continuity of the edge of the first wood panel P1. The side walls 11a and 11b of the cradle 11 are applied to the main faces 15a and 15b of the first wooden panel P1. After assembly, the recess 14 can be filled with an insulating foam. A through cavity 16 is provided in the second wooden panel P2. The housing 6 is fixed in the through cavity 16.

The first and second wood panels P1 and P2 have previously been positioned so that the cradle 11 faces the housing 6. Guide means 12a, 12b can be provided (FIG. 5) to ensure proper positioning of the two panels. of wood P1 and P2 relative to each other. Then, as explained above, the operator introduces the axial clamping device 2 into the housing 6 through the lumen 110 until the vanes 5a and 5b of the nut 5 are at the housing 8a and 8b of the housing. case 6. The operator rotates the axial clamping device 2 a quarter of a turn so that the nut 5 is locked in rotation. The operator then clamps everything using the tool 13 (Figure 8).

Figure 7 illustrates that the cavity 16 is through. The housing 6 passes through the second panel P2 and is attached to the second wooden panel P2 by its base and screws. FIG. 8 illustrates a tool 13 for clamping an axial clamping device 2 (FIG. 1). The tool 13 for tightening comprises a handle 17 and a head 18.

The head 18 is provided with a pair of notches 13a and 13b to receive the breaking means such as the pin 9. These two notches 13a and 13b are also adapted to receive a spare pin. Thus only one tool is needed to tighten and loosen the assembly device 1 (Figure 4).

The tool 13 must be positioned so that its head covers the head 3a of the rod 3. The operator can actuate the handle (as illustrated by the arrow 13c of Figure 9) of the tool 13 to tighten the device. assembly 1 (FIG. 4) up to the breakage of the pin 9. This break is a telltale which indicates to the operator that the desired tightening torque is obtained. Thus, the operator can not loosen the assembly device 1 without using an emergency pin which must be introduced into the diametrical passage 10b of the head 3a of the rod 3. It can be provided that the diameter of the pin A pin 9 can not be used as a backup pin. This is an assurance that the pin 9 has not been damaged. Independently of the invention described above, the tight holding in position of two wooden panels P1 and P2 can be ensured by the effect of the self weight of the wood panels, with or without clamping means. In order to facilitate and control the positioning of these wooden panels P1 and P2 with respect to each other, it is possible to provide guide means 12a and 12b. Various embodiments are illustrated in FIGS. 10-13. The essential means of these embodiments which are similar to those of the embodiment of FIG. 5 are identified by the same reference numerals. The contact surface of the wood panel P2 may be covered with a seal 20 mounted at the factory, which will seal the assembly of two wood panels P1 and P2.

In the embodiment of Figure 10, two sets of guide means 12a and 12b are shown. The guide means 12a and 12b are of the cylindrical rod type with two chamfered ends. The rod of the guide means 12a has a diameter substantially smaller than its length. On the other hand, the rod of the guiding means 12b has a diameter that is slightly smaller than its length.

Both embodiments provide their respective advantages. The guide means 12a and 12b are, prior to assembly, respectively positioned in the cavities 170a and 170b. The wooden panel P1 is then approached to the wooden panel P2 in a vertical approach direction (perpendicular to the plane of the second panel P2), illustrated by the arrow FV.

In the assembled position of the panels P1 and P2, the seal 18 is crushed and effectively prevents air from passing. In the embodiment of Figures 11 to 13, the guide means 12a are positioned in an oblique direction FO. The approach of the wooden panel P1 is therefore in this oblique direction FO which is oblique both vis-à-vis the panel P2 and vis-à-vis a panel P3. The three panels P1, P2 and P3 are intended to be assembled in trihedron. This oblique approach is progressive and avoids any friction with the seals 20 and 20a before reaching the final position of the assembly. The quality of the tightness of the assembly depends on the quality of realization of the wood panels, the precise positioning of the wood panels 5 between them during the assembly of the building, and the installation without friction on the neighboring panels and particularly on the seals of the contact surfaces of neighboring panels. The present invention is not limited to the embodiments which have been explicitly described, but includes the various variants and generalizations thereof within the scope of the claims hereinafter.

5444FDEP.doc

Claims (1)

CLAIMS1 - Assembly device (1) comprising an axial clamping device (2) having a rod (3) with a head (3a) and at least one threaded section (3b), a washer (4), and a nut ( 5), characterized in that it further comprises: - means (6) for receiving and axially retaining the nut (5) while blocking it in rotation, and - breaking means (9) shaped to break beyond a predetermined tightening torque applied to the rod (3). 2 - assembly device (1) according to claim 1, characterized in that: - the nut (5) comprises at least two diametrically opposed fins (5a, 5b) which extend radially outwards, - means (6) for axially receiving and retaining the nut (5) comprise two opposing housings (8a, 8b) each shaped to receive a fin (5a, 5b) of the nut (5). 3 - assembly device (1) according to claim 2, characterized in that the housings (8a, 8b) are symmetrical with respect to each other in a central symmetry about a longitudinal axis (1-1 ). 20 4 - assembly device (1) according to one of claims 2 or 3, characterized in that the means (6) for receiving and axially retain the nut (5) comprise a tube (60) having a longitudinal axis (1-1) and a substantially rectangular section providing at least two side walls (600a, 600b) parallel in pairs. 5 - assembly device (1) according to any one of claims 1 to 4, characterized in that the head (3a) of the rod (3) is cylindrical with a circular section and comprises radial excrescences able to break beyond a predetermined tightening torque applied to the rod (3). 6 - assembly device (1) according to claim 5, characterized in that the radial protrusions are a pin (9) reported in the head (3a) of the rod (3). 7 ù assembly device (1) according to any one of claims 1 to 6, characterized in that the head (3a) of the rod (3) comprises a diametrical passage (10) adapted to receive a spare pin. 35 8-assembly device (1) according to any one of claims 1 to 7, characterized in that it comprises a cradle (11), adapted to be fixed to an element to be assembled, having a main wall (11a ) in which a light (110) is formed in order to allow the passage of the nut (5) while retaining the washer (4), and having at least two side walls (11b, 11c). 9 - Assembly device (1) according to any one of claims 1 to 8, characterized in that the light (110) has an oblong shape. 10 - Assembly device (1) according to one of claims 8 or 9, characterized in that the side walls (11b, 11c) of the cradle (11) comprise median notches (11d, 11e) to allow the passage of a clamping tool (13). 11 - Assembly device according to any one of claims 1 to 10, characterized in that the threaded portion (3b) has an irreversible screw pitch. 12 - A set of wood panels (P1, P2), characterized in that the wood panels (P1, P2) are fixed to each other by connecting devices according to any one of claims 1 to 11. 13 Wood panel assembly (P1, P2) according to Claim 12, characterized in that the wood panels (P1, P2) comprise guiding means (12a, 12b) to enable the progressive positioning of the wood panels (P1 , P2) relative to each other. 14 - set of wood panels (PI, P2, P3) according to one of claims 12 or 13, characterized in that the guide means (12a, 12b) provide oblique relative displacement (FO) of the wood panels ( P1, P2) relative to each other during their approach to the assembly position. 15 - Clamping tool (13) for clamping an assembly device (1) according to any one of claims 1 to 11, characterized in that it is adapted to cap the head (3a) of the rod (3) and that it has at least two notches (13a, 13b) for receiving the breaking means (9). 16 - Clamping tool (13) according to claim 15 in its dependence on claim 7, characterized in that the at least two notches (13a, 13b) are adapted to receive a spare pin. 17 - A method of assembling two wood panels (P1, P2) using an assembly device (1) according to any one of claims 1 to 11, characterized in that it comprises the following steps: - Provide a cradle (11) according to any one of claims 8 to 10, - provide a recess (14) in a first wooden panel (P1), - adjust the cradle (11) for styling l recess (14) so that the main wall (11a) of the cradle (11) ensures the continuity of the edge of the first wooden panel (P1), the side walls (11c, 11b) of the cradle (11) being applied to the main faces (15a, 15b) of the first wooden panel (P1), 5 - providing means (6) for receiving and axially retaining the nut (5) according to any one of claims 1 to 4, - providing a through cavity (16) in the second wooden panel (P2), - fixing the means (6) for receiving and axially retaining the nut (5) in the passing through (16), 10 - positioning the first and second wooden panels (P1, P2) so that the cradle (11) is facing the means (6) for receiving and axially retain the nut (5), - introducing the axial clamping device (2) from the cradle (11) through the lumen (110) through the nut (5) which penetrates to reach the housings (8a, 8b) of means (6) for receive and axially retain the nut (5), - rotate the axial clamping device (2) to lock the nut (5) in rotation, - tighten the nut (5) with a tool (13) ) for clamping according to one of claims 15 or 16, until breaking of the breaking means (9) indicating that the predetermined tightening torque is reached.