Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
  • F16B—DEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
  • F16B31/00—Screwed connections specially modified in view of tensile load; Break-bolts
  • F16B31/02—Screwed connections specially modified in view of tensile load; Break-bolts for indicating the attainment of a particular tensile load or limiting tensile load
  • F16B31/028—Screwed connections specially modified in view of tensile load; Break-bolts for indicating the attainment of a particular tensile load or limiting tensile load with a load-indicating washer or washer assembly
• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
  • F16B—DEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
  • F16B43/00—Washers or equivalent devices; Other devices for supporting bolt-heads or nuts

Definitions

• the present invention relates to a deformable screw assembly making it possible to exert forces between two elements in two opposite directions from one another.
• the tightening of a nut and a screw through two assembled parts causes torsional forces on the threaded rod and also a superficial deformation on said parts.
• the tightening of the nut may in particular tend to drive the spring washer and / or the head in friction against the part on which it is based.
• a problem that arises and that aims to solve the present invention is to provide a deformable screw assembly which not only allows to easily print a determined axial tension on the assembly through which it passes, but also to preserve the state of the surfaces on which it comes to apply.
• the present invention proposes a deformable screw assembly intended to exert forces between two elements in two opposite directions to each other, said screw assembly comprising, on the one hand, a longitudinal part having two ends and a threaded portion extending between said two opposite ends to be threadably connected to one of said two members, and on the other hand an elastically deformable member adapted to be axially compressed between one of said two ends; or the other of said two opposite ends of said longitudinal member and the other of said two elements, while said threaded portion is under axial stress.
• Said elastically deformable member comprises an elastic washer; and said screw assembly further comprises a holding device to be able to maintain in axial compression said spring washer and to be able to release said spring washer in said compressed state between said other of said two elements and said one or said other of said two opposite ends of said longitudinal piece.
• a feature of the invention lies in the implementation of a temporary holding device, for maintaining in axial compression the elastically deformable member, the spring washer during assembly of the two elements and the screwing less partial of the longitudinal piece.
• the elastically deformable member is held in compression before said threaded portion is carried under axial stress. Then, by actuating the holding device and releasing the elastically deformable member, the latter comes to print an axial tension in the longitudinal piece, without the surfaces of the two assembled elements are damaged, as will be explained in more detail in following the description.
• the temporary holding device it is easy to come to print an axial stress to the elastically deformable member by a predetermined value, then to release this elastically deformable member so that it can exert this axial tension in the longitudinal piece. Therefore, it is by no means necessary to have a torque wrench type tool in situ, but simply to provide for the assembly of the body elastically deformable at the pressure required from the manufacture of the screw assembly.
• the spring washer is for example a conical washer or even spherical.
• the holding device preferably comprises a threaded part, while said spring washer has a threaded circular edge to be able to engage inside said threaded part.
• the elastic washer is held in axial compression by its periphery, which allows to easily release the holding device after the implementation of the longitudinal part through the two elements.
• said elastically deformable member further comprises another washer having another threaded edge to be able to engage inside said threaded part, and said spring washer is able to be held in position. axial compression against said other washer within said threaded part.
• a conical spring washer is applied against another washer, flat, so that the inner edge of the conical washer comes to rest against the flat washer, and the screwing force of the conical washer and the flat washer against each other causes deformation of the conical washer against the flat washer, and therefore its setting tension.
• said other washer is a conical washer.
• said spring washer has a U-shaped radial section opposite the center of said spring washer, forming two parallel circular edges or lips.
• Such a washer has the advantage of forming two symmetrical circular support edges from each other with respect to a plane of symmetry perpendicular to the axis of the washer.
• said one of said two ends has a head forming a shoulder.
• the shoulder thus forms a circular bearing surface.
• said elastically deformable member is adapted to bear against said shoulder.
• the threaded part of the holding device has a bottom adapted to bear axially against the head opposite the shoulder. In this way, the rotational drive of the holding device, within which is engaged the threaded edge of the spring washer, can be deformed the spring washer which then tends to come flat against the shoulder.
• said holding device comprises a control rod axially passing through said threaded portion, said control rod having a first end intended to cooperate with said other of said two ends of said threaded portion so as to be able to maintain in axial compression said elastically deformable member.
• the control rod is movably mounted in translation inside the threaded portion.
• the spring washer is applied against the edge of said other of said two ends of said threaded portion as said first end passes through. And the spring washer is stopped by an elastic ring type circlips for example.
• the control rod can be depressed under stress within the threaded portion, while the spring washer is deformed and exerts a return force.
• said control rod has a second end opposite said first end, said second end being intended to cooperate with said one of said two ends of said threaded portion between a first angular position where said member elastically deformable is held in axial compression and a second angular position where said elastically deformable member is released in said compressed state.
• the second end thus cooperates with said one of said two ends of said threaded portion and by ramp effect, they allow the translational movement of the control rod inside the threaded portion to be able to maintain in compression the spring washer.
• the threaded portion is engaged with one of the two elements, while the first end of said control rod having a free bearing surface is adapted to come axially in abutment. against said other of the two elements.
• the threaded portion is also engaged with one of the two elements, while the second end of the control rod has a head forming a shoulder adapted to abut against said other of the two elements.
• the screw assembly further comprises a nut adapted to engage said threaded portion to be able to bear against said one of said two elements.
• FIG. 1 is a partial schematic side elevational view of a deformable screw assembly according to the invention according to a first embodiment
• FIG. 2 is a partial schematic perspective view from above of the deformable screw assembly according to the invention according to the first embodiment
• FIG. 3 is a schematic axial sectional view of the deformable screw assembly according to the invention according to the first embodiment
• FIG. 4 is a schematic side elevational view of the deformable screw assembly implemented according to the invention.
• Figure 5 is a schematic side elevational view of a deformable screw assembly according to a second embodiment
• Figure 6 is a schematic, truncated perspective view of an element of the deformable screw assembly shown in Figure 5;
• FIG. 7 is a schematic axial sectional view of the deformable screw assembly according to the second embodiment
• FIG. 8 is a schematic elevational front view showing a deformable screw assembly according to a third embodiment in a first state
• FIG. 9 is a schematic elevational front view of the deformable screw according to a third embodiment in a second state
• FIG. 10 is a schematic side elevational view of a deformable screw according to the third embodiment according to another embodiment.
• Figure 1 1 is a schematic axial sectional view of an installation for obtaining the object shown in Figure 2.
• Figure 1 illustrates in side elevation a screw 10 comprising a threaded portion 12 forming a rod, and at one of its ends a head 14 forming a shoulder 16.
• a flat washer 18 is shown in Figure 1 in support against the shoulder 16 while a conical washer 20 comes into contact with the flat washer 18.
• it is also provided, according to another embodiment, the implementation of two conical washers.
• the washers 18, 20 are made of metal.
• the conical washer 20 has an inner edge 22 located towards the center opposite an outer edge 24 located at the periphery.
• the flat washer 18 has a first threaded edge 26 not inverted with respect to the threaded portion 12 of the screw 10, whereas the conical washer 20 has a second threaded edge 28 also in a reverse pitch relative to the threaded portion 12.
• the conical washer 20 is prestressed against the flat washer 18 inside a tapped piece 30 formed of a large flat nut, hexagon, and shown in Figure 2.
• the flat nut 30 has a diameter D greater than the maximum diameter of the head 14 of the screw 10 shown in FIG.
• the first threaded edge 26 of the flat washer 18 and the second threaded edge 28 of the conical washer 20 are thus respectively engaged in the tapping of the flat nut 30.
• the conical washer 20 is thus deformed by force of a value of predetermined constraint, against the flat washer 18.
• the threaded portion 12 of the screw 10 can thus be engaged inside the washers 18, 20 through the flat nut 30, as shown in FIG. 3.
• FIG. 3 is found the washers, flat 18 and elastic 20, engaged against each other inside the flat nut 30, the flat washer 18 bears against the shoulder 16 of the head 14.
• the threaded portion 12 then passes through the washers 18, 20 and flat nut 30.
• This threaded portion 12 is then engaged through two superposed plates 32, 34 and drilled as shown in Figure 4.
• the threaded portion 12 is then equipped with a nut 36 and the latter is screwed manually until it comes into contact with the thin plate 34.
• the conical washer 20 made flat and pre-stressed against the flat washer 18 thanks to the flat nut 30 is then applied against the surface of the thick plate 32. Starting, by unscrewing the flat nut 30, while the head 14 comes through, the second threaded edge 28 of the conical washer 20 is then released. The conical washer 20 then tends to relax and return to its initial conical shape.
• the axial tension could be printed in the threaded portion 12 without it being necessary to rotate the nut 36 against the surface of the thin plate 34.
• the threaded portion 12 has not undergone no torsional stress, which tends to reduce the forces it undergoes and moreover, the surface of the thin plate 34 has not been damaged.
• the conical washer 20 is thus preloaded with a value of 40,000 Newton, and this stress is released only after the screw assembly 10 has been put in place through the two plates 34, 32.
• the conical washer 20 remains under stress and can still relax axially by a certain amplitude, without the tension that it allows to be substantially affected. Therefore, when one of the plates 32, 34 is for example made of a composite material, which may have a tendency to flow over time, thanks to the potential energy reserve contained in the conical washer 20, this can be loosen substantially by maintaining a tension in the threaded portion 12.
• the deformable screw assembly according to the invention makes it possible to store potential energy in a set of washers, and to be able to release this energy at least partially after the screw assembly has been installed.
• the flat nut 30 equipped with preloaded washers to a predetermined voltage value can be stored for later use. In this way, it is possible to print a given voltage in a screwed assembly without the need to use measuring tools such as a torque wrench.
• FIGS. 5 to 7 illustrating a deformable screw assembly 38 according to a second variant embodiment. It has a screw 40 having a threaded rod 42 surmounted by a head 44 forming a shoulder 46. Against the shoulder 46, an elastic washer 48 having a radially open U-shaped radial section is applied. We find in more detail in Figure 6, the spring washer 48 truncated here.
• the elastic washer 48 is made of metal and it defines two parallel lips, an upper lip 50 and a lower lip 52. The two lips are then threaded in reverse pitch relative to the threaded rod 42 and so that they can be screwed on.
• the threaded cap 54 has a bottom 56 intended to bear on the head 44 opposite the shoulder 46, and an internal thread 58.
• the head 44 has a circular axial housing 60 inside which is adapted to be guided in rotation a guide disc 62 secured to the bottom 56 of the threaded cap 54.
• the guide disc extends coaxially protruding from the threaded cap 54, and in contrast, the latter is equipped with a drive tongue 64.
• Figure 7 illustrates the threaded cap 54 mounted on the head 44, the guide disc 62 engaged within the circular axial housing 60, the bottom 56 bearing axially against the head 44, while the spring washer 48 to U-section is held in compression against the shoulder 46, its threaded lips being engaged in the internal thread 58.
• the compression of the spring washer 48 could be achieved by forcing the threaded cap 54 relative to the screw 40, via the tongue 64.
• the mounting of the screw 40 through a drilled assembly and using a nut makes it possible to print an axial stress in the rod 42 between the nut and the head 44 by unscrewing the threaded cap 54 so as to release the elastic washer 48.
• Figure 8 shows a deformable screw assembly 65, including a hollow threaded portion 66 having a first end 68 which defines a circular axial bearing edge 70, and a second end 72 having two diametrically opposed circular notches 74, 76, and between the two, two arcuate edges forming ramps 78, 80.
• a conical elastic washer 82 is in abutment against the circular axial bearing edge 70.
• a holding device comprising a control rod 84 extending axially inside the hollow threaded portion 66, the control rod 84 having, on the one hand, a stop end 86 provided with a ring resilient 88 bearing axially against the conical elastic washer 82, and secondly on the opposite side, a crenel control end 90 bearing on the ramp edges 78, 80.
• the crenel control end 90 is also surmounted by a driving head 92 defining a shoulder 93.
• the crenellated control end 90 has two diametrically opposed crenellations 94, 96 beveled to form ramps as well, and extending respectively in the circular notches 74, 76 .
• the driving head 92 can be rotated relative to the hollow threaded portion 66 in a quarter of a turn, while the crenellations 94, 96 cooperate with the ramp edges 78, 80 so as to spread the drive head 92 of the second end 72 of the hollow threaded portion 66 and thereby to drive in translation the control rod 84.
• the stop end 86 tends to retract towards the inside of the the hollow threaded portion 66, and therefore, compresses the conical spring washer 82 via the elastic ring 88.
• the conical spring washer 82 is thus found in compression in FIG. 9.
• the drive head 92 ' has no shoulder.
• FIG. 1 1 schematically showing a plant 100 for installing two washers inside a flat nut, according to the invention and according to a particular embodiment.
• a first conical washer 101 and a second conical washer 103 inside a flat nut 30 ' one installs a first conical washer 101 and a second conical washer 103 inside a flat nut 30 '.
• the installation 100 comprises two coaxial tools, one upper 102, the other lower 104 forming crowns, mounted movable in translation towards one another. Also, it also comprises a centering punch 106 adapted to coaxially cross the upper coaxial tool 102 is the lower coaxial tool 104.
• the two conical washers 101, 103 are identical and have an outside diameter Dex, and an inside diameter Dint. Their outer edges have respectively a first thread 108 and a second thread 1 10. They also have respectively a first convex face 1 12 and a second convex face 1 14. And on these convex faces, 1 12, 1 14 they have a first inner edge 1 16 and a second inner edge 1 18.
• the flat nut 30 has a tapping 120 whose diameter is substantially greater than the outer diameter Dex conical washers 101, 103. It will also be observed that the outer diameter of the coaxial tools
• the flat nut 30 ' is interposed coaxially between the two coaxial tools 102, 104, while the first conical washer 101 is installed between the upper tool 102 and the flat nut 30' and the second conical washer
• the centering punch 106 is then engaged through them and the flat nut 30 ', to the lower tool 104.
• first and second inner flanges 16 come into contact with each other through the flat nut 30 '.
• the two coaxial tools 102, 104 are then forced towards each other so as to deform the conical washers 101, 103 to flatten them. Their outer edges are then contiguous and the first 108 and second 1 10 threads are sufficiently close and in continuity with one another to then be able to screw together the conical washers 101, 103 inside the flat nut 30 .
• the conical washers 101, 103 are then deformed elastically, and they are therefore held under stress inside the flat nut 30 '.

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• Engineering & Computer Science (AREA)
• General Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Bolts, Nuts, And Washers (AREA)

Applications Claiming Priority (2)

Publications (1)

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Family Applications (1)

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• 2015
  • 2015-04-17 FR FR1553427A patent/FR3035160B1/fr active Active
• 2016
  • 2016-04-15 EP EP16720459.3A patent/EP3283779A1/fr not_active Withdrawn
  • 2016-04-15 KR KR1020177031653A patent/KR20170140250A/ko unknown
  • 2016-04-15 CN CN201680025130.8A patent/CN107567550B/zh not_active Expired - Fee Related
  • 2016-04-15 JP JP2017553236A patent/JP6810705B2/ja not_active Expired - Fee Related
  • 2016-04-15 RU RU2017138089A patent/RU2709935C2/ru not_active IP Right Cessation
  • 2016-04-15 US US15/566,192 patent/US10502255B2/en not_active Expired - Fee Related
  • 2016-04-15 WO PCT/FR2016/050885 patent/WO2016166492A1/fr active Application Filing

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