• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A metal fastener (10; 40) for interfitting with at least two structural members (20,22) including a through hole, the fastener having an enlarged head (12; 42), a barrel (14; 44) having an outer diameter greater than an inner diameter of the bore before installation, said barrel comprising a conductive surface (26; 56). Before installation, at least the conductive surface (26; 56) is covered with a lubricating layer (30) having a sufficient adhesion to prevent its abrasion by manual manipulation of the fastener and sufficiently low to be torn from the conductive surface at least partially during interference mounting of the fastener. The invention also relates to a method for obtaining such a fastener and a method for installing such a fastener in a structure. The invention applies to the assembly of aircraft structures.
    公开号:FR3026446A1
    申请号:FR1459269
    申请日:2014-09-30
    公开日:2016-04-01
    发明作者:Laurent Bourges;Johan Stephan;Christophe Vandaele
    申请人:LISI Aerospace SAS;
    IPC主号:
    专利说明:

    [0001] The present invention relates to an electrically conductive fastening for aircraft type apparatus, to a method of obtaining such fastening and to a method of installing such fastening in an assembly of structural members.
    [0002] The new generation of aircraft includes structures made of carbon fiber reinforced composite material which have the advantage of significantly lightening the aircraft and which, unlike metallic materials, are not sensitive to corrosion and the phenomenon of tired. However, unlike a metal structure, these composite materials are poor electrical conductors. They pose problems of evacuation of the currents and consequently of resistance to the impacts of lightning. It is thus necessary to fill any gap that exists between a fastener and a hole in which the fastener is installed, to create an intimate contact between the fastener and the structure. This contact facilitates the passage of current, avoids the creation of sparks and prevents the presence of a volume of air which, when strong currents, turns into a plasma under pressure may ignite fuel in the case of a fastener installed in a tank structure. This is why the interference installation of jacketed fasteners has spread in recent years in the field of structures made of composite materials to allow the evacuation of strong electric currents generated by lightning. Thus, in the state of the art, the partially coated jacketed fasteners of the documents US Pat. No. 8,382,413 and WO 2011/050040 are known. These fixings include a screw and a socket, installed with play in a drilling. The bushing expands radially in the structure when the barrel of the screw is inserted into the bushing, the barrel having an outside diameter greater than an inside diameter of the bushing. To allow the insertion of the screw drums, these comprise on an annular portion of their outer surface is a slip varnish containing a pigment such as molybdenum disulfide (M0S2) or an organic coating containing aluminum pigments and lubricating pigments. Both are rather considered electrically insulating due to the presence of dielectric organic resin. The screws also comprise an annular portion of bare barrel electrically conductive. The socket is left bare to allow electrical currents to pass from the screw to the composite structure. The method of applying partial lubricating coating on the barrel involves complex implementation of masking screw portions to the unit, and does not allow industrial processing in bulk of large volumes of fasteners. In addition, the use of jacketed fastening systems is expensive and weighs down the aircraft. Threaded metal fasteners are also known for insertion into interference directly into a structure, not jacketed. These fixations can be variously treated: the material of the binding is either left bare after passivation, or coated with pure aluminum by the so-called "IVD" process, or covered with a HI-type aluminum pigment anticorrosive coating. KOTETm 1 or HI-KOTETm 1NC marketed by HI-SHEAR Corporation, either anodized with sulfuric acid or coated with cadmium. The fasteners are all lubricated with a final layer of cetyl alcohol, which is a lubricating grease, to allow mounting of a nut on the threaded portion. Cetyl alcohol can be easily removed during manual handling, vibration during transport or in automated installation systems or when cleaning with a cloth. Aluminum has a very good electrical conductivity, and reduces the friction in the nets. Its lubricating power is however too low to allow to install an interference fixation in a structure. Indeed, a screw coated with aluminum even coated with cetyl alcohol, flu very quickly when installed in a structure or socket of internal diameter smaller than the diameter of the screw, and may not be completely installed, especially when the thickness of the structure to be clamped is large. The aluminum pigment coating protects the parts in contact with galvanic corrosion, and avoids any seizure between the thread of the screw and the thread of a nut, when screwing it. He is not considered a conductor of electricity. Sulfuric anodizing is conventionally carried out on aluminum, titanium, or aluminum alloy or titanium alloy parts in order to increase the resistance to corrosion of the part. The layer has no lubricity and is conductive when its thickness is less than one micron. None of these fixing variants can be interfered with in an area of the aircraft likely to be struck by lightning, either because of insufficient lubrication of the barrel or because of an electrical resistance of the aircraft. anticorrosion coating too important compromising the passage of lightning currents. An object of the invention is to solve these problems. The invention thus relates to a metal fastener for assembling with interference at least two structural elements comprising a through bore, the fastener comprising an enlarged head, a shaft having before installation an outer diameter greater than an inner diameter of the bore. said barrel comprising a conductive surface. Before installation, at least the conductive surface is covered with a lubricating layer whose composition is determined so as to have sufficient adhesion to prevent its abrasion by manual handling of the fastener and sufficiently weak to be torn from the conductive surface at least partially during interference mounting of the fastener. The lubricating layer has high lubricity and low adhesion to the outer surface of the barrel, although sufficient to not be removed by simple manual handling. During the insertion of the interfering metal fastener into the structure, this layer is gradually and partially torn from the barrel, leaving part of the metal outer surface of the barrel in contact with the structure, allowing the propagation of electric currents from the lightning in the structure. The invention is of course applicable to the assembly of mixed structures, ie using composite and metallic materials, to the assembly of purely metallic structures. The binding according to the invention may also comprise at least one of the following characteristics, isolated or in combination: The lubricating layer comprises a mixture of at least one polyolefin and a polytetrafluoroethylene. the polyolefin is a polyethylene or a polypropylene; the lubricating layer comprises at least 80% by weight of polyolefin and polytetrafluoroethylene; the lubricating layer also comprises a desiccant and a biocide; the conductive surface comprises a sulfuric anodizing layer; a thickness of less than 100 nanometers, the conductive surface is a passivated metal, the conductive surface is a vacuum-deposited aluminum layer, the conductive surface comprises the entire outer surface of the barrel, the conductive surface comprises a portion of the outer surface of the barrel, the conductive surface comprises an annular portion of the barrel of the screw, the conductive surface comprises an axial portion of the barrel of the screw, the attachment further comprises a threaded portion covered with a layer of lubricant comprising a mixture of at least one polyolefin and polytetrafluoroethylene, the attachment comprises in re a pulling tail and a rupture groove sized to break under a certain stress in tension.
    [0003] The invention also relates to a method for obtaining a metal fastener for interfering assembling at least two structural elements comprising a through bore, the method comprising the steps of: - providing a metal fastener comprising an enlarged head, a drum having before installation an outer diameter greater than an inner diameter of the bore, said barrel comprising a conductive surface, spraying a, or soaking in an alkaline solution comprising in mass 60 to 85% of an aqueous base solvent and 20% to 35% of a mixture of at least one polyolefin and a polytetrafluoroethylene of at least a portion of the attachment; drying of the binding so as to obtain a dry lubricating polymer layer comprising a mixture of at least one polyolefin and a polytetrafluoroethylene. The process for producing a binding according to the invention may also comprise at least one of the following characteristics, isolated or in combination: the drying is carried out at a temperature of between 60 ° C. and 80 ° C., a centrifugation step is carried out after soaking and before drying, the spraying or soaking step is preceded by a step of depositing an aluminum layer or a sulfuric anodization step. The invention also relates to a method of installing a metal fastener 10 through a piercing through at least two structural elements, the fastener comprising an enlarged head, a shaft having before installation an outside diameter greater than a diameter. interior of the bore, said barrel comprising a conductive surface. Prior to installation, at least the conductive surface is coated with a layer of lubricating polymers comprising a blend of at least one polyolefin and a polytetrafluoroethylene. During installation, during a step of interference insertion of the screw barrel into the structure, the lubricating layer is partially torn from the screw barrel. The invention also relates to the use of at least one metal fastener according to one embodiment of the invention, through a bore passing through at least two structural elements of an aircraft, to dissipate in at least an element of structure of the electric currents, when at least the head of the fixation is struck by the lightning. The invention and its various applications will be better understood by reading the following description and examining the figures that accompany it. These are presented only as an indication and in no way limitative of the invention. The figures show: FIG. 1: a fastener according to a first embodiment, before installation in a sectional structure; FIG. 2: a fastening according to a second embodiment of the invention; FIG. 3: a fastening according to a third embodiment of the invention; FIG. 4: the evolution of the friction coefficient of fastenings of the invention; prior art of different diameters, coated with cetyl alcohol, - figure 5: the evolution of the coefficient of friction of fastenings according to one embodiment of the invention, coated with lubricant, - Figure 6: a fixation according to a fourth mode embodiment of the invention. In these figures, the identical elements retain the same references. Figure 1 shows schematically a side view of a fastener 10 before installation in a bore 20 made in structural elements 22, 24, shown in section. Preferably, at least one structure is made of composite material, here the structure 24. The metal fastener comprises a milled head 12, a cylindrical drum 14 having an outside diameter D1 and a locking portion 16 in the form of a thread having a outside diameter D2 measured in crest of net, D2 being lower than D1. A transition portion 18 connects the cylindrical drum 14 to the threaded portion 16. The diameter D3 of the bore 20 before installation of the fastener 10 is smaller than the outside diameter D1 of the barrel 14, and greater than the diameter D2 of the threaded portion, so that the threads are not damaged when the fastener 10 is inserted into the bore 20.
    [0004] In the illustrated example, the fastener 10 is made of titanium alloy which has undergone sulfuric anodization, creating an anodizing layer of less than one micron thickness over the entire external surface of the fastener. The outer surface 28 of the threaded portion 16 and the transition portion 18 is covered with a second layer of anti-corrosion lubricant coating containing aluminum pigments of the type HI-KOTETm 1NC. This surface 28 is therefore insulating (it is shown with a dotted background in Figures 1 to 3 and 6). The surface 26 of the head 12 and the barrel 14 is electrically conductive. In the example of Figure 1, the entire surface of the barrel 14 is conductive. However, only an annular portion (26A) of the barrel (FIG 2), or one or more axial portions (26B), over the entire height of the barrel or only a portion of the height of the barrel (FIG. conductive. The other portions may thus be covered with anticorrosive lubricant coating containing aluminum pigments.
    [0005] In the examples of FIGS. 1 to 3 and 6, the fastener 10 is entirely covered with a lubricating layer, symbolized by a mixed line in the figures. The thickness of the lubricating layer can vary from 5 to 25 microns without this thickness affecting the mechanical performance or electrical conduction of the fastener.
    [0006] The applicant has surprisingly found that such a screw 10 may be interfered with in a structure and able to conduct electrical currents when at least the outer surface of the drum is covered with a lubricating layer comprising a polyolefin mixture (s). ) and polytetrafluoroethylene. The applicant has also found that the application of this same layer 30 on the anticorrosive lubricant coating of the threaded portion significantly reduces the dispersion of the torque necessary to install the binding, compared to the dispersion generated by the use of cetyl alcohol. In addition, the lubricating power of this lubricating layer is very homogeneous regardless of the substrate on which it is applied. The applicant has thus tested the interfering installation of two batches of fasteners of different outside diameters (diameters measured in 16th of an inch) covered with a lubricating layer of different thicknesses. The configurations tested and indicated in Table 1 are the following: - Configuration 1: application of the lubricating layer by soaking and centrifugation, - Configuration 2: manual application of the lubricating layer in a spray pass lasting a period of time. a second, - Configuration 3: manual application of the lubricating layer in a spray pass lasting 15 seconds. The interference is measured by comparing the diameter D3 of a bore made in an aluminum specimen simulating a structure to the outside diameter D1 of the barrel 14 of the fastener 10 before installation.
    [0007] The thickness of the lubricating layer is measured before insertion of the fastener 10. The fastener 10 is installed in the bore by pushing on the head 12, the installation force being measured until the head is docked with the specimen. The specimen is then cut to remove the fastener 10 without damaging the surface of the drum 14, and the thickness of the remaining lubricating layer after installation is measured. The average values of the 302 6 4 4 6 results of these measurements are shown in Table 1. Table 1. Layer thickness Layer thickness Interference (mm) Effort 30 before 30 after Installation installation (pm) installation (pm) (N) Conf. 1 7.7 1.6 0.070 6 107 Diam-4 8.3 1.7 0.068 6 730 Conf. 2 Conf. 3 23.5 2.1 0.099 6 099 Conf. 1 8,3 0.9 0.065 10 241 Diam. _ 10 9.8 1.0 0.067 11 294 Conf. 2. Conf. In all cases, the fasteners 10 were interfered with until the heads 12 made contact with the surface of the test specimens with a moderate installation effort. . Depending on the configuration, a peel of the lubricating layer is observed, with the remainder remaining under the head or being pushed back to the outside. The thickness of the lubricating layer after insertion is very homogeneous and ranges from 0.9 to 2.1 μm. Several fasteners 10 interfered with in carbon fiber composite specimens were light tested to verify their electrical conductivities. For carrying out these tests, the specimens comprising the fasteners are installed in a dark chamber. Some fastener heads 12 are struck by a current of very high amplitude equivalent to that of lightning. A camera records the test to detect sparking or degassing around the fasteners 10. The specimens are then removed from the chamber and cut to visually examine the surface of the scanning electron microscope fasteners. The tests carried out show that no spark or degassing was produced during the test. Visual analyzes show that no barrel 14 was damaged by lightning, but portions of the lubricating layer and the anodizing layer were removed upon insertion.
    [0008] One theory is that the roughness of carbon fibers in the composite material has an abrasive effect on a portion of the barrel surface, but this effect is not continuous over the entire height of the barrel. According to a variant of the invention, the conductive surface 26 may be constituted by the bare or passivated surface of the metal constituting the attachment, or by a layer of aluminum deposited under vacuum on the bare surface of the metal constituting the attachment. The Applicant has in fact noted with surprise that the lubricating power of the lubricating layer does not depend on the support to which it was applied. Thus, the Applicant has performed several fastener insertions tests 40 comprising a pulling tail 50 (FIG. 6) of four different diameters, comprising various substrates coated with either cetyl alcohol or lubricating layer. The insertion was carried out in interference, by means of a pulling machine pulling the pulling tail, and measuring the installation forces. A calculation makes it possible to determine the coefficients of friction between the fastener 40 and the structure in which the fastener is inserted. The configurations tested are as follows: configuration 1 (HK1NC / AC / MIF): fixation covered with a first layer of HI-KOTETm 1NC anti-corrosion lubricant coating and a second layer of cetyl alcohol over the entire fastening ; medium interference installation; configuration 2 (HK1NC / organic lub / MIF): fixation covered with a first layer of HI-KOTETm 1NC anti-corrosion lubricant coating and a second lubricating layer on the entire fastener; medium interference installation; configuration 3 (HK1NC / AC / HIF): attachment covered with HI-KOTETm 1NC anti-corrosion lubricant coating and a second layer of cetyl alcohol over the entire attachment; installation in strong interference; configuration 4 (HK1NC / organic lub / HIF): attachment covered with HI-KOTETm 1NC anti-corrosion lubricant coating and a second lubricant layer on the entire fastener; installation with strong interference; Configuration 5 (OAS / HK1NC / AC / MIF): fixation comprising a first sulfuric anodizing layer, a second layer of anti-corrosion lubricating coating H1-KOTETm 1NC on the threaded portion only, and a third layer of cetyl alcohol on the whole fixation; medium interference installation; configuration 6 (OAS / HK1NC / organic lub / MIF): attachment comprising a first sulfuric anodizing layer, a second Hl-KOTETm 1NC anti-corrosion lubricant coating layer on the threaded portion only, and a third lubricating layer on the set of fixation; Medium interference installation.
    [0009] Figures 4 and 5 illustrate the average results of the tests carried out. Figure 4 illustrates the evolution of the friction coefficient of the prior art fasteners of different diameters coated with cetyl alcohol. FIG. 5 shows the evolution of the coefficient of friction of fasteners 40 according to one embodiment of the invention, geometrically identical to those used for tests with cetyl alcohol and having undergone the same treatments, but coated with a lubricating layer and not cetyl alcohol. The use of cetyl alcohol is clearly dependent on the substrate as shown by the curve of configuration 5 in FIG. 4, shifted upwards with respect to the curves of configurations 1 and 3, having the same substrate. The coefficients of friction calculated vary between 0.045 and 2.10 depending on the diameter and the substrate. In comparison, the use of the lubricating layer shows that the coefficient of friction is in a narrow range of between 0.035 and 0.07 irrespective of the diameter and the substrate (Figure 5). The use of the lubricating layer therefore makes it possible to install a fastener with known torque or installation effort with a high degree of accuracy, which is much better than that obtained when using cetyl alcohol. This layer 30 thus makes it possible to limit the risk of breakage of the fasteners during installation, since the torque or the installation effort, which is a function of the coefficient of friction between the fastener and the structure, is very little dispersed. The lubricating layer is obtained for example from a liquid alkaline solution, with a pH of between 8 and 10, comprising at least one mixture of lubricating polymers dispersed in an aqueous base. In the liquid state, the composition of the solution is described in table 2. Table 2 Compound% mass Solvent: Water 50 - 70 Solvent: Isopropanol 10- 15 Lubricating Polymers 20 - 35 Other components 0 - 7 The solvent is for example a mixture of water and isopropanol. Liquid at its temperature of use, the solvent dissolves and / or dilutes the other substances without modifying them chemically and without itself modifying itself.
    [0010] Isopropanol makes it possible to obtain a faster drying of the solution once applied. The solvent evaporates on drying. The lubricating polymer is, for example, a composition comprising a polyolefin, or a mixture of polyolefins, for example a mixture of polyethylene and / or polypropylene, and polytetrafluoroethylene. The percentage by weight of polyolefin (s) in the solution is for example between 19.5 and 30%, and the percentage by weight of polytetrafluoroethylene in the solution is between 0.5 and 5%. The solution may further comprise up to 4% by weight of a desiccant, for example silica gel. The desiccant accelerates the drying time of the solution once applied. The solution may further comprise up to 2% by weight of a surfactant such as polyethylene glycol ether. It improves the dispersion of the lubricating polymers in an aqueous base solvent. The surfactant evaporates on drying. The solution may further comprise less than 1% by weight of a biocide which avoids the rapid formation of bacteria and fungi capable of growth in an aqueous base solution. The solids content of such a solution comprises the lubricating polymers, and if the liquid solution contains them, the desiccant and / or the biocide, either by weight, between 20 and 40%. The solids content comprises at least 80% lubricating polymers, and at most 100%, if the solution does not include desiccant or biocide. Table 3 indicates a preferred formulation of the solution.
    [0011] Table 3 Compound% mass Solvent: Water 53.9 Solvent: lsopropanol 15 Lubricating polymers 26 Of which: PTFE 1 Other components Silica gel 3.0 PEG Ether alcohol 2.0 Biocide 0.1 The solids content of such a formulation includes lubricant polymers, gel of silica and the biocide, ie 29.1% by weight. In this example, the lubricating polymers constitute 89.34% by mass of the dry extract (26% of the 29.1% dry matter). One method of obtaining the fastener 10 comprising a lubricating layer is as follows. In a first step, the metal fastener from the forge and / or machined is degreased, dried and sanded, to provide a clean outer surface and conducive to the adhesion of a coating. Optionally, a vacuum deposition of aluminum or anodic oxidation, partial or over the entire outer surface of the fastener 10 is achieved. If necessary, the threads of the binding are covered with a lubricant anticorrosive coating type Hl-KOTETm 1NC. In a second step, the binding is loaded into a basket and then quenched in an alkaline solution comprising in mass 60 to 85% of an aqueous base solvent and 20% to 35% by weight of a mixture of polyolefin (s) and of polytetrafluoroethylene dispersed in the solvent for a minute or less.
    [0012] The basket is centrifuged to wring out the excess lubricant and then dried at 60 ° C to 80 ° C so that the solvents evaporate. This method makes it possible to obtain on the outer surface of the screw 10 a layer 30 comprising at least 80% of lubricating polymers, of a thickness of a few microns. It should be noted that the drying temperature is lower than the lowest melting temperature of the polyolefins. Indeed, a temperature above 150 ° C leads to yellowing or browning of the polymer layer and contributes to a deterioration of the performance of the coating. When the entire surface of the fastener can be coated with the lubricating layer, such a method is advantageous because it allows large volumes of fasteners to be processed in one go. Another method of applying the lubricating layer is to spray an alkaline solution comprising by weight 60 to 85% of an aqueous base solvent and 20 to 35% of a mixture of polyolefin (s) and polytetrafluoroethylene. By means of a gun on all or part of the attachment 10. In this case, the thickness of the lubricating layer is controlled by the operator and the centrifugation operation is not necessary. Such a method is used primarily when only a portion of the fastener is to be coated. For example, if only a portion of the barrel is to be coated, the head and part of the barrel to be masked. The fasteners are in this case installed in pierced plates ensuring the masking of the non-lubricated portion, and the operator or a robot sprays the alkaline solution only on the opposite side to the head. The method of installing the screw 10 having a lubricating layer in a bore passing through at least two structures of an aircraft is as follows. The length of the fastener 10 is chosen according to the thickness of the structures to be assembled so that the threaded portion 16 comes out of the structure 24 after being inserted. The insertion of the interference fastener in the structure is done by pushing on the head, or by pulling the pulling tail if the fastener includes one, or by screwing a nut on the threaded portion in the case of fasteners was conical. Due to its high lubricity, the lubricating layer allows interference insertion of the screw. However, because of this same interference between the outer surface of the screw barrel and the inner surface of the structure and the low adhesion of the layer 30 to the screw barrel, the lubricating layer is partially torn off the barrel of the screw. the screw both on its height and on its periphery, leaving conductive portions of the barrel 14. The removal of the layer 30 is not total because of the manufacturing tolerances of the screw and the mode of application lubricant on the screw, which can very locally constitute pockets of lubricant reservoir a few microns thick. The lubricating layer sufficiently reduces the frictional forces between the screw and the structure to permit interference installation. Its adhesion is strong enough to adhere to the drum and withstand any manual handling, and low enough to be partially removed during interference mounting as installation progresses.
    [0013] Once the head 12 of the screw 10 in contact with the outer surface 32 of the structure 22, directed towards the outside of the aircraft, and the nut in contact with the outer surface 34 of the structure 24, facing the inside the aircraft, the fastener 10 is installed and assembles without play structures 22 and 24. When the head 12 of the screw 10 is struck by lightning, the electric current is evacuated in the structural elements 22, 24 or, in the case of composite structures to a metal mesh optionally included on the surface 32, or inside the structural elements, via the metal portions of the drum 14. The invention is of course not limited to the examples described above.
    [0014] Thus, the barrel 14 of the screw may be conical and inserted into a conical bore, or into a liner whose inner surface is tapered, and the outer surface is cylindrical, installed in a cylindrical bore. A fastener comprising such a jacket is described in the applicant's patent application FR 2 946 707. The enlarged head of the screw may be of any known shape, for example protruding or bulging. Alternatively, the attachment may comprise a traction shank provided with pulling grooves and breakable at a rupture groove, as shown in FIG. 6. The attachment 40 comprises a protruding head 42, a cylindrical shank 44, a threaded portion 46, a rupture groove 48 sized to break under a certain stress in tension or flexion, and a pulling tail 50 comprising pulling grooves 52. In this example, the head 42 and the barrel 44 have an outer surface 56 conductive, and the threaded portion has an outer surface 58 coated with anti-corrosion coating HI-KOTE TM INC, electrically insulating. The entire attachment is coated with a lubricating layer comprising a mixture of polyolefin (s) and polytetrafluoroethylene, for example by dipping, centrifuging and drying as previously described. Of course, only the barrel 44 could be covered with the lubricating layer, by means of a gun and masks on only a portion, annular, axial or of another form. This fastener 40 is installed in interference in a hole of thickness such that the pulling tail 52 comes out of the structure, on the opposite side to the head 42. A tool comprising jaws grasps the pulling grooves and pulls the fastener 40 into the drilling. The pulling tail is then broken at the rupture groove 50 by additional traction, or by application of a flexion on the pulling tail. Alternatively on all types of fasteners described above, the threaded locking portion can be replaced by crimping grooves to accommodate a ring set in place of a screw nut.
    权利要求:
    Claims (20)
    [0001]
    CLAIMS1 - Fastening (10; 40) metal for interfering assembling at least two structural elements (22, 24) comprising a piercing (20) therethrough, the fastener comprising an enlarged head (12; 42), a barrel (14; ) having, before installation, an outer diameter (D1) greater than an inner diameter (D3) of the bore, said barrel comprising a conductive surface (26; 56), characterized in that prior to installation, at least the conductive surface (26; ) is covered with a lubricating layer (30) whose composition is determined so as to have sufficient adhesion to prevent its abrasion by manual manipulation of the fastener and sufficiently low to be torn from the conductive surface at least partially during assembly by interference of fixation.
    [0002]
    The fastener (10; 40) of claim 1 such that the lubricating layer (30) comprises a blend of at least one polyolefin and a polytetrafluoroethylene.
    [0003]
    3. Fastening (10; 40) according to claim 2 such that the polyolefin is a polyethylene or a polypropylene.
    [0004]
    4. Fastening (10; 40) according to claim 2 or 3 such that the lubricating layer (30) comprises at least 80% by weight of polyolefin and polytetrafluoroethylene.
    [0005]
    5. Fixation (10; 40) according to one of claims 1 to 4, such that said layer (30) also comprises a desiccant and / or a biocide.
    [0006]
    The fastener (10; 40) of claim 1 wherein the conductive surface (26; 56) comprises a sulfuric anodizing layer of a thickness of less than 100 nanometers.
    [0007]
    The fastener (10; 40) of claim 1 such that the conductive surface (26; 56) is a passivated metal.
    [0008]
    The fastener (10; 40) of claim 1 wherein the conductive surface (26; 56) is a vacuum deposited aluminum layer.
    [0009]
    The fastener (10; 40) of claim 1 such that the conductive surface (26; 56) comprises the entire outer surface of the barrel.
    [0010]
    The fastener (10; 40) of claim 1 such that the conductive surface (26A, 26B) comprises only a portion of the outer surface of the barrel.
    [0011]
    The fastener (10; 40) of claim 10 wherein the conductive surface comprises an annular portion (26A) of the screw barrel.
    [0012]
    12. Fastening (10; 40) according to claim 10 such that the conductive surface comprises an axial portion (26B) of the barrel of the screw.
    [0013]
    13. Fastening (10; 40) according to one of the preceding claims further comprising a threaded portion covered with a layer (30) lubricating comprising a mixture of at least one polyolefin and a polytetrafluoroethylene,
    [0014]
    14. Fastening (40) according to one of claims 1 to 13 further comprising a pulling tail (50) and a groove (48) sized to break under a certain stress in tension.
    [0015]
    A method of obtaining a metal fastener (10; 40) for interfitting at least two structural members (22, 24) including a through bore (20), the method comprising the steps of: a metal fastener having an enlarged head, a barrel having, prior to installation, an outside diameter (D1) greater than an inside diameter (D3) of the bore, said barrel comprising a conductive surface, spraying one, or soaking in a solution alkali comprising 60 to 85% by weight of an aqueous base solvent and 20 to 35% of a mixture of at least one polyolefin and a polytetrafluoroethylene, at least a portion of the setting, - drying of the fixing so as to obtain a lubricating layer (30) comprising a mixture of at least one polyolefin and a polytetrafluoroethylene.
    [0016]
    16. The method of claim 15 wherein the drying is performed at a temperature between 60 ° C and 80 ° C. 10
    [0017]
    The method of claim 15 wherein a centrifugation step is performed after soaking and before drying.
    [0018]
    18. The method of claim 15 wherein the spraying or soaking step is preceded by a step of depositing an aluminum layer or a sulfuric anodizing step.
    [0019]
    19. A method of installing a metal fastener (10; 40) through a bore (20) passing through at least two structural members (22, 24), the fastener having an enlarged head (12; 42). and a shaft (14; 44) having an outer diameter (D1) greater than an inner diameter (D3) of the bore before installation, said shaft comprising a conductive surface (26; 56), characterized in that prior to installation at least the conductive surface (26) is coated with a lubricating layer (30) comprising a mixture of at least one polyolefin and a polytetrafluoroethylene, and that during the installation, during an interfering insertion step of the screw of the screw in the structure, the layer (30) lubricating is partially removed from the shaft of the screw. 30
    [0020]
    20. Use of at least one fastener (10; 40) metal according to one of claims 1 to 14, through a bore (20) passing through at least two structural elements (22, 24) of an aircraft to dissipate in at least one structural element of the electric currents, when the head of at least the attachment is struck by lightning. 35
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    同族专利:
    公开号 | 公开日
    EP3201483B1|2019-06-26|
    US20200149566A1|2020-05-14|
    CN107407316B|2020-10-27|
    RU2667702C1|2018-09-24|
    US20170298970A1|2017-10-19|
    CA2960898A1|2016-04-07|
    CN107407316A|2017-11-28|
    FR3026446B1|2017-12-01|
    WO2016050791A1|2016-04-07|
    JP2018500504A|2018-01-11|
    BR112017006486A2|2018-07-03|
    US10544815B2|2020-01-28|
    JP6682518B2|2020-04-15|
    EP3201483A1|2017-08-09|
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    法律状态:
    2015-09-28| PLFP| Fee payment|Year of fee payment: 2 |
    2016-04-01| PLSC| Publication of the preliminary search report|Effective date: 20160401 |
    2016-09-30| PLFP| Fee payment|Year of fee payment: 3 |
    2017-09-29| PLFP| Fee payment|Year of fee payment: 4 |
    2018-09-28| PLFP| Fee payment|Year of fee payment: 5 |
    2019-09-30| PLFP| Fee payment|Year of fee payment: 6 |
    2021-06-11| ST| Notification of lapse|Effective date: 20210506 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1459269A|FR3026446B1|2014-09-30|2014-09-30|LUBRICATED INTERFERENCE FASTENING|FR1459269A| FR3026446B1|2014-09-30|2014-09-30|LUBRICATED INTERFERENCE FASTENING|
    EP15770950.2A| EP3201483B1|2014-09-30|2015-09-29|Fastener using lubricated interference fit|
    JP2017516839A| JP6682518B2|2014-09-30|2015-09-29|Fasteners using a lubricated interference fit|
    PCT/EP2015/072468| WO2016050791A1|2014-09-30|2015-09-29|Fastener using lubricated interference fit|
    CN201580063402.9A| CN107407316B|2014-09-30|2015-09-29|Fastener with interference fit by lubrication|
    CA2960898A| CA2960898A1|2014-09-30|2015-09-29|Fastener using lubricated interference fit|
    RU2017115254A| RU2667702C1|2014-09-30|2015-09-29|Fastener with lubricants, installed with a tension|
    BR112017006486-3A| BR112017006486A2|2014-09-30|2015-09-29|fastener using lubricated interference fit|
    US15/515,593| US10544815B2|2014-09-30|2015-09-29|Fastener using lubricated interference fit|
    US16/742,274| US20200149566A1|2014-09-30|2020-01-14|Fastener using lubricated interference fit|
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