FR3017428A1 - FIXING DEVICE AND METHOD FOR MANUFACTURING THE SAME - Google Patents

Abstract

The invention relates to a fastening device such as those known under the name of "lockbolt" receiving an elastic element on their detachable part and which is remarkable in that the pin (100) is preformed on its second part (150) by a throat (151) deeper than those already present to create a reception volume and retaining surfaces for said elastic member (300). The invention also relates to a manufacturing method for such a device. Applications: fasteners, "lockbolt"

Description

The present invention relates to the field of fixing devices of the type of those comprising two elements, namely a pin and a ring that is crimped onto the spindle, and in particular to the spindles. adaptations to achieve their installation in the best conditions. DESCRIPTION OF THE PRIOR ART The installation of fasteners of rivet type comprising two elements such as those known under the name of "lockbolt", is likely to have several disadvantages. An example of such a device is described in FR2503805. Such devices comprise a pin and a deformable ring that crimp on the spindle. Said pin comprises at one end, a head and has on its body, a plurality of grooves, ribs and / or locking grooves for the ring 20 engaging on the pin to be fixed there by deformation. Such a configuration allows the attachment of parts together by piercing the latter with a through hole, with said head bearing on one end of the hole and with said ring serving, once deformed and fixed to the spindle, bearing surface 25 opposite the head at the other end of the hole. Said spindle comprises a first preformed portion of ribs and / or grooves for cooperation with the ring and a second part further from the head and preformed with ribs and / or grooves for cooperation with a tool 30 ensuring holding the pin during the crimping of the ring on the first part. The second part is separated from the first part by a deeper groove intended to allow the breaking of the spindle, once a threshold of tensile force crossed during installation. The drawbacks noted during the installation of such devices lie in the fact that the spindle or the ring are capable, before crimping, of sliding from the hole or one relative to the other being driven by their own weight.

Thus, for example when laying in a substantially vertical position where the head of the pin rests on the upper edge of the hole, the ring slides along the pin to achieve, once crimped, a support on the lower edge the hole.

If the operator holding the setting tool does not hold the ring in position on the spindle, this ring may fall. Similarly, when laying in a substantially vertical position where the spindle head rests on the bottom edge of the hole, if the fit between the spindle and the hole allows slippage, the spindle may fall. The fall of these elements is a waste of time and requires retention of the element, most of the time provided manually by an operator. Thus, during the pose, one of his hands holds the ring and his other hand holds the tool, tedious manipulations that, in the long run, can cause some fatigue. To solve the disadvantage of a ring disengaging from the spindle, US4995777 discloses a fastening device with a self-retaining ring. This retention is implemented by the deformation of the ring which will have a protrusion in its hollow core cooperating for retaining purposes with the preformed grooves on the spindle. It was found, however, that given the diameter tolerances of the ring hole and the tolerances of the pin or pin, it was sometimes impossible to thread the ring onto the pin. In addition, the deformation of the ring and the modifications it implied as to its mechanical behavior could not be neglected. To solve the disadvantage of a pin disengaging from the hole, the document US 2007/0065251 describes a device and a fixing method 30 proposing an elastic clamping element coming to equip the detachable part of the pin in order to hold the pin in the hole. hole in which it can move freely in adjustment. This elastic element is simply positioned on the spindle and, by its elasticity, allows: - the insertion of the spindle into the hole passing through the elements, - the holding in position of the spindle in the hole, - the bearing of the head on one of the faces of the elements to be assembled out of the hole, - the threading of the ring, once the head bears, - the retention of the ring before deformation. Indeed, the elasticity of the elastic element allows it to pass a small thickness to allow the passages to a greater thickness 5 to ensure the retentions. Such a solution nevertheless has the following drawbacks: the elastic element is not retained on the spindle, which can lead to a disengagement to be managed which can occur before the laying of the spindle or after the elastic element is arranged on the detachable part as close as possible to the rupture groove, which can lead to its jamming during the crimping of the ring on the spindle, the elastic element has a thickness and an elasticity in front of, on the one hand, retaining the spindle in the hole and secondly, allow the passage of the ring which can be contradictory, - the thickness of the elastic element may interfere with the evacuation of the detachable part or the insertion of the pin in case of mounting tight of the pin in the hole.

On the basis of this state of affairs and a set of pre-established specifications aimed at ensuring the retention of the ring on the spindle, the applicant has conducted research aimed at proposing a technical solution for retaining the ring on the spindle. a pin of a "lockbolt" type fixing device without the disadvantages of those of the prior art. This research led to the design and implementation of a fixing device and its new manufacturing process overcoming the drawbacks of the prior art.

The fixing device comprises a pin and a deformable ring crimped to the pin, said pin comprises at one end a head and has on its body a plurality of ribs or locking grooves allowing the ring engaging on the pin , the body of said spindle comprises a first part equipped with ribs and / or grooves for the purpose of cooperation with the ring, and a second part further from the head and equipped with ribs and / or grooves for cooperation with a laying tool ensuring the holding of the pin during crimping of the ring on the first part, the second part is connected to the first part, by a deeper groove to allow rupture the spindle, once a tensile stress threshold crossed during installation, an elastic element being installed on the second part of the spindle. According to the invention, this device is remarkable in that the spindle is preformed on its second part, by a so-called reception groove 10 deeper than those already present to create a reception volume and retaining surfaces for said elastic element. This feature is particularly advantageous in that it provides better retention of the elastic element which will ensure that once installed, said elastic element will be integral with the detachable portion of the spindle. This optimized restraint will allow pin-free insertion into a through-hole in a snug fit. It will further ensure an axial stop function for the ring, once the latter threaded on the spindle.

In addition, the creation of a groove or groove dedicated to the reception of the elastic element will allow the realization of the appropriate depth and width according to the choice of elastic element with possibly a groove profile. adapted to the reception of the compressed volume of the elastic element. The elasticity of the protruding portion 25 out of the groove and capable of serving as an axial stop can thus take advantage of that inserted in the groove. The elasticity of the element therefore does not depend exclusively on that of the apparent volume, which makes the choice of an elastic element easier and avoids the presence of a too salient volume.

Such an elastic member not having too much projection will allow the jaws of the laying tool to pass over the elastic member without risk of sliding thereof which would cause the wedging of the tool. The device of the invention is therefore better adapted than those of the prior art to the use of a laying tool discharging the second parts also called traction tails. Of course, if the groove accommodating the elastic element is deeper than those separating the grooves of the second part or tail traction, it is shallower than the rupture groove. According to another particularly advantageous feature of the invention, wherein said second spindle portion comprises an end connected to the first part by the rupture groove and a second free end, said receiving groove is made closer to the second end. . The arrangement of the receiving groove and thus of the elastic element, as far as possible from the spindle head has many advantages, and among these: it avoids having to pull the spindle in its entirety in order to have access at the axial stop constituted by the elastic element, it makes it possible to dispose of the axial stop at the beginning of the threading of the ring on the spindle, it prevents the elastic element from interfering with the ring during the crimping operation while being away from the rupture groove. According to another particularly advantageous characteristic, said elastic element is annular. Its profile may vary, but according to a preferred but non-limiting embodiment, it adopts a circular profile. According to another particularly advantageous characteristic, said elastic element adopts a toric shape, which according to a preferred but non-limiting embodiment, is formed by an O-ring. According to a preferred embodiment, the implementation of the invention is provided on a pin made of titanium or titanium alloy. Another object of the invention relates to a method of manufacturing a fastener of the type of that described above. According to a first characteristic, the method of the invention consists in producing said receiving groove by machining, which makes it possible to envisage adapting already made pins by preforming them in order to receive the elastic element. According to another characteristic, said manufacturing method consists in making said receiving groove rolling at the same time as the preformed grooves in the spindle, which makes it possible to envisage making pins suitable for receiving an elastic element. forming axial stop. The basic concepts of the invention having been described above in their most elementary form, other details and characteristics will emerge more clearly on reading the description which follows and with reference to the appended drawings, giving non-limiting example, an embodiment of a fastening device according to the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic drawing of a cross-sectional view of a pin of a fastening device according to the invention, ready to be introduced into a through orifice of two parts to be assembled; Figure 2 illustrates the pin inserted into the orifice with the elastic member in contact with the inner surface of the orifice; Figure 2a is a schematic drawing of a sectional detail view of the contact of the elastic member in said hole; Figure 3 is a schematic drawing of a sectional view of the spindle installed in the orifice with the ring ready to be threaded onto the spindle; Figure 4 illustrates the ring threaded on the pin with the elastic member in contact with the inner surface of the ring; Figure 4a is a schematic drawing of a sectional detail view of the contact of the elastic member in said ring; Figure 5 is a schematic drawing of a view of the ring positioned on the pin beyond the elastic member; Figure 6 is a schematic drawing of a view of the crimp ring on the spindle with the second spindle portion detached; Fig. 7 is a schematic drawing of a first spindle embodiment; Fig. 7a is a detail view of the preformed portion of the spindle with the sectional resilient member of Fig. 7; FIG. 8 is a schematic drawing of a second embodiment of a spindle, FIG. 8a is a detailed view of the preformed part of the spindle with the elastic element in section according to FIG. 8. DESCRIPTION OF EMBODIMENTS PREFERRED As illustrated in the drawings of Figures 1 to 7a, the fixing device comprises a pin 100 and a deformable ring 200 crimped on the pin 100. Said pin 100 comprises at one end, a head 110 and has 5 on its body 120 a plurality of ribs or locking grooves 130 allowing the ring 200 engaging on the pin 100 to be fixed there by crimping. The body 120 of said pin 100 includes a first grooved portion 140 for engagement with the ring 200 and a second grooved portion 150 further away from the head 110 for cooperation with a tool (not shown) for the holding the pin 100 during crimping of the ring 200 on the first grooved portion 140. The second grooved portion 150 is connected to the first portion 140, 15 by a groove or deeper groove 160 to allow the breakage of the pin 100 , once a threshold of tensile force crossed during the installation provided by the tool. An elastic member adopting the shape of a torus 300 is installed on the second grooved portion 150 of the spindle.

According to the invention, the spindle 100 is preformed on its second grooved part, with a groove or a groove called a deeper opening than those already present in order to create a receiving volume and retaining surfaces for said resilient member 300. As illustrated, this second grooved portion 150 which includes an end connected to the first portion 140 by the break groove 160 and a second free end is preformed from said receiving groove 151 at most of the second end . This pin 100 will be introduced into a hole 400 passing through two pieces P1 and P2 to be assembled. Said hole 400 comprises a countersink 410 accommodating the countersunk head 110 of the spindle 100. As illustrated by the drawing of FIG. 2a, the elastic element 300 will compress during the passage of the spindle 100 in the orifice 400. The fact that the elastic element is compressed in the hole 400 will make it possible to ensure the cleaning of the hole 400 before final installation of the fixing device. This cleaning is particularly useful in that in some areas, a sealant or glue may be present between the parts to be assembled in the orifices passing through them. The compression of the elastic member 300 ensures that any foreign body is discharged out of the hole 400. As illustrated in the drawing of FIG. 3, the ring 200 is then threaded onto the pin 100. During this set-up, illustrated in the drawing of FIG. 4a, the elastic element 300 is compressed to allow the passage of the ring 200. As illustrated in the drawing of FIG. 5, the elastic element resumes, once the ring has passed, its initial shape in order to to serve as an axial stop to the ring 200.

The tooling operation (not shown) can then begin with the result illustrated in the drawing of Figure 6 where the ring 200 is crimped onto the grooved portion of the first portion 140 of the spindle and where the second portion of Pin 150 is detached from the first portion 140 and is evacuated with the associated elastic member 300. According to the embodiment illustrated in the drawings of Figures 7 and 7a, the groove or groove 151 accommodating the elastic member 300 is machined. According to the embodiment illustrated in the drawings of FIGS. 8 and 8a, the groove or groove 151 'accommodating the elastic element 300' is obtained during the rolling of the spindle. This figure also illustrates another embodiment of elastic element 300 'which, although remaining annular, adopts a polygonal profile.

It is understood that the device, which has just been described and shown above, has been for disclosure rather than limitation. Of course, various arrangements, modifications and improvements may be made to the example above, without departing from the scope of the invention. 30 35

Claims (7)

REVENDICATIONS1. Fastening device comprising a pin (100) and a deformable ring (200) for crimping on the pin, said pin comprising at one end, a head (110) and having on its body (120), a plurality of ribs or grooves blocking device (130) enabling the ring (200) engaging on the pin (100) to be fixed thereon by deformation, the body (120) of said pin (100) comprising a first portion (140) equipped with ribs and / or grooves for cooperation with the ring (200) and a second portion (150) further from the head and provided with ribs and / or grooves for co-operation with an installation tool holding the pin (100) during crimping of the ring (200) on the first portion (140), the second portion (150) being bonded to the first portion (140) by a deeper channel (160) for enabling the rupture of the spindle (100), once a tensile stress threshold has been crossed during the laying, a the elastic element (300) being installed on the second part (150) of the spindle, CHARACTERIZED BY THE FACT THAT the spindle (100) is preformed on its second part (150) by a groove (151) said to host deeper than those already present to create a reception volume and retaining surfaces for said elastic member (300). 2. Device according to claim 1, wherein said second spindle portion (150) (100) comprises an end connected to the first portion (140) by the rupture groove (160) and a second free end, CHARACTERIZED BY THE FACT THAT said receiving groove (151) is made closer to the second end. 3. Device according to claim 1, characterized by the fact that said elastic element (300) is annular. 4. Device according to claim 3, characterized in that said elastic element (300) adopts a circular profile. 5. Device according to claim 1, characterized in that said elastic element (300) is formed by an O-ring. 6. A method of manufacturing a fixing device comprising a pin (100) and a deformable ring (200) crimped to the pin, said pin comprising at one end, a head (110) and having on its body (120), a plurality of ribs or locking grooves (130) allowing the ring (200) engaging on the pin (100) to be fixed there by deformation, the body (120) of said pin ( 100) comprising a first portion (140) equipped with ribs and / or grooves for cooperation with the ring (200) and a second portion (150) further from the head and provided with ribs and / or grooves for the purpose of cooperation with a setting tool ensuring the holding of the pin (100) during the crimping of the ring (200) on the first part (140), the second part (150) being connected to the first part (140) by a throat (160) deeper to allow the breakage of the pin (100), once a force threshold of traction taken during the laying, an elastic element (300) being installed on the second part (150) of the spindle, the spindle (100) being preformed on its second part (150) by a groove (151) said host deeper than those already present to create a reception volume and retaining surfaces for said elastic member (300), CHARACTERIZED IN THAT it consists in making said receiving groove (151) by machining. 7. A method of manufacturing a fixing device comprising a pin (100 ') and a deformable ring crimped on the pin, said pin comprising at one end, a head and having on its body, a plurality of ribs or grooves blocking device enabling the ring engaging on the pin to be fastened thereon by deformation, the body of said pin comprising a first part equipped with ribs and / or grooves for the purpose of cooperation with the ring and, a second part further from the head and equipped with ribs and / or grooves for the purpose of cooperation with a setting tool ensuring the holding of the pin (100 ') during the crimping of the ring on the first part, the second part being linked to the first by a deeper groove intended to allow the breakage of the spindle (100 '), once a threshold of tensile force crossed during the laying, an elastic element (300') being installed on the second part of the spindle, the spindle (100 ') being preformed on its second part by a groove (151') said receiving deeper than those already present to create a reception volume and retaining surfaces for said elastic element (300 '), CHARACTERIZED IN THAT it consists in making said receiving groove (151') by rolling together with the preformed grooves in the spindle (100 '). 15 20 25 30 35