FR3011344A1 - MOUNT OF EYEGLASSES WHICH ARE CONNECTED TO THE TENON BY A JOINT AXIS FORMED BY A SCREW SLEEVE - Google Patents

Abstract

Mount, the pin (20) of which is connected to a hinge lug (40) of the branch (50) by a pivot (30) formed by a socket screw (31, 32) engaged in two loops (23, 24) formed by the end of the tenon (20). An elastic tongue (25) in the gap between the two side strips (23, 24) covers the axis and the pivot (30) so as to hold the bearing block (41) in the open position or in the folded position branch (50) bearing against the surfaces (412, 414).

Description

FIELD OF THE INVENTION The present invention relates to a spectacle frame with branches connected by a hinge to the tenon of the frame. STATE OF THE ART Multiple forms of realization of eyeglass frames and articulation systems of the branches are already known. Thus, for example, there are known eyeglass arm joints according to the documents FR 11 04 139 and FR 11 59 757, both of which describe means for articulating the branches facilitating assembly and disassembly. OBJECT OF THE INVENTION The object of the present invention is to simplify the construction and assembly of the frame by assembling the joints between the branches and the tenons while at the same time being able to diversify the shape and the esthetics of the branches with the same basic articulation. SUMMARY OF THE INVENTION AND ADVANTAGES OF THE INVENTION For this purpose, the present invention relates to a spectacle of glasses with branches connected by a hinge to the tenons of the frame. Each articulation comprises a tenon connected to a hinge lug fixed to its branch by a pivot defining the axis of the hinge, A. each tenon brought to a backward return having: * two lateral bands each forming a loop, aligned with the axis, and * an elastic tongue in the gap between the two lateral bands, attached by its end to the tenon and covering the axis, B. the hinge tab has a bearing block, flat, intended to come between the two buckles of the tenon, and a bore coaxial with the axis, under the elastic tongue, to receive the pivot, and a bearing surface in the alignment of the branch, so that in the unfolded position the branch, the elastic tongue is applied against the bearing surface, C. a socket screw forming the hinge pin being engaged in the two loops and in the drilling of the bearing block.

The eyeglass frame according to the invention is distinguished by a particularly simple embodiment of the various components of the frame, whether the front and the components of the joint, made independently of the branches, to combine these elements branches of very different shape, appearance and color, leaving the choice to the user. The joint thus produced is of particularly reliable operation since the pivot is constituted by a socket screw, itself housed in the loops formed by the pin being, by clamping, in particular locked against these loops so as to be immobilized and do not unscrew due to the pivoting of the branch since the bearing block pivots freely around the body of the sleeve and the bearing block is additionally held between the two loops so that it does not risk move slightly at an angle and rotate the body of the bushing, causing unscrewing as is the case for the screw joints of known frames. This security does not, however, prevent the easy disassembly of the branch to allow for example to change branch and adapt to an aesthetic context.

The user can have several sets of branches that he can easily install on the post. The assembly / disassembly is all the easier as both the socket and the screw have a head corresponding to the edge of each of the loops, which facilitates their gripping and screwing.

According to an advantageous characteristic, the bearing surface is bordered, on the branch side, by a stop and the elastic tongue has a length such that in the deployed position of the branch, the end of the tongue is spaced from the stop to allow a over-opening movement of the branch until the stop comes to bear against the end of the tongue. The joint combines in a simple way the means allowing the over-opening movement while effectively protecting the joint due to the difference between the point of abutment of the end of the tongue and the stop of the block. bearing relative to the axis of the joint and the fact that the force during the over-opening movement is exerted in the longitudinal direction of the tongue. The tongue itself is simple to perform by cutting the end of the tenon and its clearance out of the plane of the branches of the post to receive the bearing block. In general, the opening position of the branches is held in a very stable manner thanks to the large contact surface between the first bearing surface of the bearing block and the inner surface of the body of the elastic tongue.

In this support, flat, the elasticity of the tongue does not intervene to maintain the position. This elasticity occurs only when the branch is rotated to lift the tongue by playing elastically, including its junction with the rest of the post to move into the folded position. For the folded position which corresponds to the support of the other bearing surface against the inner face of the tongue, the surface is smaller for reasons of size and dimensions of the bearing block. But in the folded position, it suffices to maintain a contact which can be much lower than that of maintaining the deployed position or open position. According to another characteristic, the bearing block of the hinge lug is extended by a fastening shank placed in a housing of corresponding section of the front end of the branch.

This embodiment facilitates the installation of the hinge lug in the eyeglass branch. According to another characteristic, the bearing block has two bearing surfaces joining one edge of passage, one of the bearing surfaces being in alignment with the branch and the other bearing surface is substantially perpendicular. to the branch so that in unfolded position of the branch, the elastic tongue is applied against the first bearing surface and that in the folded position of the branch, the elastic tongue is applied against the second bearing surface to maintain the branch respectively in one of these two positions and the passage between the two positions is by the pivoting movement of the branch which resiliently pushes the tongue by the passage edge passing through a metastable fulcrum for tilt the bearing block into one or other of these positions. According to another characteristic, the socket screw comprises a socket which, under its head, has a cylindrical body of length equal to or greater than the axial length of the two loops and the drilling of the bearing block along the axis. Depending on the axial length retained for the bushing, this constitutes the tightening limit of the socket screw relative to the spacing of the outer surfaces or edges of the tenon loops so as to create a slight tightening of the loops in the direction of the axis, which reinforces the locking of the screw in the socket by a stronger friction of the underside of the heads of the sleeve and the screw against the edge of the two loops.

According to another characteristic, the elastic tongue is located in the gap between the two lateral branches and its body is above the plane of the two lateral bands. According to another characteristic, the hinge lug is a piece of constant thickness, at least for the bearing block, and it is cut from a sheet of this thickness, in particular a titanium sheet. This embodiment of the hinge tab has the advantage of being particularly simple and allows a precise and careful manufacture of hinge tabs in large series that fit on a large number of branches.

According to another advantageous characteristic, completing the preceding one, the front end of the branch has a notch above its housing for the fastening tail of the hinge lug, this notch having a shape corresponding to that of the hinge. stop for receiving this stop when the fastening tail is engaged in its housing of the branch to ensure the rotational locking of the hinge lug relative to the branch. This attachment makes it possible to increase the locking in relative rotation or relative torsion of the hinge lug with respect to the branch because of this blocking by the shape of the stop in the notch.

This blocking is even more effective if, in a variant, the opposite side to that of the indentation of the branch also comprises a notch for receiving the corner of the block-bearing opposite the abutment relative to the position of the fixing tail.

Drawings The present invention will be described hereinafter in more detail with the aid of an exemplary embodiment of a hinged eyeglass frame shown schematically in the accompanying drawings limited to a single hinge.

Thus: FIG. 1 is an exploded view of a mount according to the invention limited to the articulation of the branch, seen from the outside, FIGS. 2A, B, C are isometric views showing the engagement of the bearing in 3A, 3B respectively show the branch in the deployed position relative to the pin and the folded branch relative to the tenon. DESCRIPTION OF AN EMBODIMENT OF THE INVENTION The invention relates to an eyeglass frame carrying two articulated branches. In the following description, according to the convention, the indications relating to the orientation are those of the eyeglass frame in the position of use, in particular the following indications: outside (E) / inside (I) / before (AV) / rear (AR). The articulation of the branch corresponds to the geometric axis yy and the direction of the deployed branch corresponds globally to the direction xx. To simplify the presentation, Figure 1 is limited to the part of the frame and the branch at the joint. The mount has a front face 10 shown schematically by a dashed line and carrying on each side a post 20 of which only one is shown. The unit 20 is connected to the branch 50 by a hinge part 40 via a pivot 30. In this figure, what appears to be upward is actually turned to the side in the position d use of glasses.

The tenon 20 is a bent piece having a folded part forming a return 22, turned towards the rear (AR), towards the branch 50. The front 21 of the tenon 20 is connected to the frame 10 or is carried by it . The return 22 is divided into two lateral strips 23, 24, each end of which is bent to form a loop 331, 341 defining the axis (yy) of the joint. The two strips 23, 24 are separated by a tongue 25, offset from the top of the plane of the two lateral strips while remaining resiliently connected by its end 251 to the tenon 20. The body 252 of the tongue 25 covers the region of the axis of articulation, that is to say the region of the two loops 231, 241. The free end of the tongue 25, forms a bearing surface 253. The assembly is made in the material of the tenon, for example titanium. The two side strips 23, 24 curved inwards (in the direction of the eyeglass frame) form the loops 231, 241 of substantially circular section receiving the pivot constituted by a socket screw 30. The socket screw 30 consists of a sleeve-shaped nut 31 terminated by a head 312 with a tool shank 313 such as a slot and receiving the screw 32. The generally circular section of the interior of the two loops 23, 24 substantially corresponds to the di- The length L of the body 311 of the bushing 31 is substantially equal to the width LO of the return 22 at the two loops 231, 241 of the post 20. The head 212 of the bushing 31 and the 222 of the screw 32 respectively cover the outer edges of the two loops 231, 241 by taking support. The shape of the heads 312, 322 corresponds to an essentially aesthetic choice with however a tool outlet 313 (including that of the screw 32) to make the clamping. The tool socket may be a slot, a hexagonal imprint, a cruciform imprint or other imprint of this type or a hexagonal outer shape, a curved shape, a tallow drop shape, which are shapes also chosen according to considerations aesthetic. The assembly is intended to be aligned on the yy axis of the joint.

The hinge lug 40 is constituted by a bearing block 41 carried by the end of the branch 50. This bearing block 41 is a flattened piece of a certain thickness (e) provided with a through bore 411. bearing block 41 continues rearward (AR) by a fastening tail 43, preferably of rectangular or square section to engage in a longitudinal housing 51, of corresponding section, shown in dotted lines, in the branch 50 The bearing block 41 has, on the top in the orientation of Figure 1, but which is actually the outer side of the branch when the glasses are worn, a flat bearing surface 412 (main bearing surface) oriented in the longitudinal direction (xx) of the branch 50 and a second bearing surface 414 (secondary bearing surface) frontal, oriented transversely to the longitudinal direction (xx) of the branch and substantially perpendicular to the first surface of 412 support. The junction two bearing surfaces 412, 414 form a cutting edge 413. The rear of the first bearing surface 412 is delimited by a stop 42. Advantageously, the front end of the branch 50 has a recess 52 of shape complementary to that of the stop 42 so that when the bearing block 41 is fully engaged in the housing 51 of the branch 50, the stop 42 is wedged in the recess 52 and secures the branch 50 in rotation relative to the block bearing 41 around its longitudinal axis (xx). The recess 52 is in the outer face of the branch 50 according to the orientation convention defined above. According to the embodiment shown, the fastening tail 43 is not in alignment with the inner surface of the bearing block 41 opposite the bearing surface 412 turned towards it, but the fastening tail 43 is situated substantially at half the thickness of the bearing block 51, preferably in alignment with the bore 411 so that there remains, on the inside, a wedge 42 a in a position opposite to that of the abutment 42. Under these conditions, the front end of the leg 50 has, on the inside, an indentation (not shown) similar to the indentation 52 on the outer side so as to receive the wedge 42a when the fastening tail 43 is engaged in its housing. 51 in its final position. This second connection by the shape between the bearing block 41 and the front of the arm 50 is an additional means for the relative torsion locking of the hinge lug 40 relative to the arm 50. The through-hole 411 of the block The caliper 41 has a diameter corresponding substantially to that of the body 311 of the sleeve 31. The thickness of the bearing block 41, at least around the through hole 411, is equal to the spacing of the edges opposite the two loops 231, 241, to the set of mounting and operating close. The bearing block 41 and the branch 50 that it carries is thus held by the body 311 of the bushing and in the direction of the axis yy by coming to bear the non-referenced faces of the bearing block against the inner edges of the loops 231, 241. For the assembly of the branch 50, as shown in FIGS. 2A, B, C, the bearing block 41 is engaged in the free space between the two loops 231, 241 of the lateral strips 23, 24 to align the bore 411 on the yy axis of the joint. The sleeve 31 of the screw can then be engaged in the first loop 23 and then in the bore 411 of the bearing 41 to arrive in the second loop 24, the assembly then being blocked axially by the screw 32. As already indicated , the sleeve 31 has a length preferably at least equal to the axial length of the loops 231, 241 and the thickness of the bearing block 41, that is to say the axial length of the bore 411 of the bearing block. Preferably, the body 311 of the sleeve has a length substantially corresponding to the spacing of the outer surfaces of the two loops 231, 241 so that the tightening of the screw 32 in the sleeve 31, after the installation of the block -palier 41, does not tighten the two loops against the faces of the block-bearing 41 but allows its free movement around the pivot thus formed while ensuring the guidance by coming in support in the yy direction. The socket screw 30 is preferably fixed and the bearing block 41 rotates around the bushing 31. As shown in FIG. 2A, when the bearing block 41 is engaged in the gap between the two loops 23, 24 with its perforation aligned on the hinge axis yy, when the branch is substantially in the extension of the folded portion of the pin, there remains a small gap 100 between the bearing face 253 of the elastic tongue 25 and the surface This slight gap 100 allows the over-opening movement until, by the outward pivoting of the branch 50, the stop 42 comes against the bearing surface 253. from the end of the tongue. In the assembled position (Figure 2C), the main bearing surface 412 of the bearing block is flat under the body 252 of the resilient tongue 25 which is thus held in position. After the establishment of the pivot, the mounting of the joint is completed and can then push the attachment tail in its housing of the end of the branch 50. This commitment until the stop 42 comes into the notch 52 could also be done before the assembly of the branch with its tongue hinge pin. FIGS. 3A and 3B respectively show the deployed position and the folded position of the branch with respect to the tenon (and thus with respect to the unrepresented facade of the frame of glasses). The open or extended position of the branch 50 shown in FIG. 3A is held by the bearing of the body of the resilient tongue 25 against the bearing surface 412 of the bearing block 41. This support is stable under normal conditions. use due to the large contact surface between the bearing surface 412 and the body 252 of the resilient tongue 25. The distance 100 that remains between the bearing end 253 of the tongue 25 and the stop 42 allows movement over-opening until these two surfaces meet.

Since the abutment 42 is very recessed in the direction xx relative to the position of the axis yy of the joint and because of the corresponding length of the body of the tongue 25, the lever arm, when the end 53 is in abutment against the stop 42 because of the over-opening is a position that can not normally be exceeded without deforming the tongue 25, especially since the force exerted then is directed in the longitudinal direction of the 252 body of the tongue 25 and that this effort can not play the elasticity of the tongue 25 and its attachment from its end 253 to the pin 20. To fold the branch 50, one pivots the branch about the axis of articulation yy so that the passage edge 413 meets the underside of the elastic tongue 25 and deforms it elastically by lifting it to be able to pass the metastable point corresponding to the maximum lifting of the tongue 25 and the secondary bearing surface 414 comes against the inner surface of the elastic tongue 25 when the branch 50 is folded, which also ensures the maintenance in the closed position of the branch against the facade. Since the extended position (FIG. 3A) and the folded position (FIG. 3B) of the eyeglass branches are usually at 90 °, the bearing surfaces 412, 414 of the bearing block 41 also make an angle of order of 90 °. During the pivoting of the branch 50, the bearing block 41 pivots around the sleeve 31 by bearing against the inner edge of the two loops 23, 24 by its two lateral surfaces bordering the bore 411.

The eyeglass frame according to the invention or at least the elements of the articulation of each branch, namely the pin 20 and the hinge lug 40 are preferably titanium parts. As in this example, the hinge lug 40 is not made in one piece with the branch 50, this allows to give the branch 50 very variable shapes according to the desired aesthetic while using the same leg 40.30 NOMENCLATURE 10 Frame 20 Tenon 21 Front 22 Back 23, 24 Lateral strips 231, 241 Buckles 25 Elastic tongue 251 End connected to tenon 252 Body of tongue 253 End face 30 Swivel / socket screw 31 Socket 311 Body 312 Head 313 Tool Holder 32 Screw 321 Body 322 Head 40 Swivel Leg 41 Bearing Block 411 Drill 412 Main Bracket 413 Edge 414 Secondary Backing Surface 42 Stop 42a Wedge of Bearing Block 43 Tail 50 Branch 51 Housing 52 Notch 100 Interval e Thickness of bearing block 41 L Length of sleeve body 31 LO Length of return 22 yy Axis of joint xx Overall direction of branch5

Claims (2)

CLAIMS1 °) Mount glasses branch connected by a joint to the tenons of the frame, characterized in that each joint comprises a pin (20) connected to a hinge lug (40) fixed to its branch (50) by a pivot (30) defining the axis (yy) of the articulation, A. each carried tenon (20) has a return (22) towards the rear (AR) having: * two lateral bands (23, 24) each forming a loop (231, 241), aligned with the axis (yy), and * a resilient tongue (25) in the gap between the two side strips (23, 24), attached by its end (251) to the post ( 20) and covering the axis (yy), B. the hinge lug (40) has a flat bearing block (41) intended to come between the two loops (23, 24) of the tenon (20). ), and a bore (411) coaxial with the axis (yy), under the resilient tongue (25), for receiving the pivot (30), and a bearing surface (412) in the alignment (xx) of the branch (50), so that in the unfolded position of the bra (50), the elastic tongue (25) is applied against the bearing surface (412), C. a socket screw (30, 31, 32) forming the hinge axis (yy) being engaged in the two loops (23, 24) and in the bore (411) of the bearing block (41). 2) spectacle frame according to claim 1, characterized in that the bearing surface (411) is bordered on the side (50) by a stop (42) and the elastic tongue (25) has a length such that in the deployed position of the limb (50), the end (253) of the tongue (25) is spaced (100) from the abutment (42) to allow an over-opening movement of the limb (50) until the abutment (42) bears against the end (253) of the tongue (25) .353 °) Eyeglass frame according to claim 1, characterized in that the bearing block (41) of the hinge lug (40) is extended by a fastening tail (43) placed in a housing (51) of corresponding section of the front end of the leg (50). 4) Eyeglass frame according to claim 1, characterized in that the bearing block (41) has two bearing surfaces (412, 414) joined by an edge (413), one (412) bearing surfaces being in alignment (xx) of the limb (50) and the other bearing surface (414) is substantially perpendicular to the limb (50) so that in the unfolded position of the limb (50); 50), the elastic tongue (25) is applied against the first bearing surface (412) and that in the folded position of the limb (50), the elastic tongue is applied against the second bearing surface (414) for maintaining the branch respectively in one of these two positions and the passage between the two positions is by the pivoting movement of the branch (50) which elastically pushes the tongue (25) by the passing edge (413) passing by a metastable fulcrum for tilting the bearing block (41) in one or other of these positions. 5 °) spectacle frame according to claim 1, characterized in that the socket screw (30) comprises a sleeve (31) which, under its head (312), has a cylindrical body of length (L) equal to or greater than the axial length (LO) of the two loops (23, 24) and the bore (411) of the bearing block (41) along the axis (yy). Eyeglass frame according to claim 1, characterized in that the elastic tongue (25) is situated in the gap between the two lateral branches (23, 24) and its body (252) is above the plane of the two sidebands (23, 24) .357 °) Eyeglass frame according to claim 1, characterized in that the hinge lug (40) is a piece of constant thickness (e), at least for the bearing block (41), and it is cut in a sheet of this thickness, in particular a titanium sheet. Eyeglass frame according to claims 1, 2 and 3, characterized in that the front end of the leg (50) has a notch (52) above its housing (51) for the tail ( 43) of the hinge lug (40), this notch having a shape corresponding to that of the stop (42) to receive this stop (42) when the securing tail is engaged in its housing (41) of the branch ( 50) to ensure the rotational locking of the hinge lug (40) relative to the branch (50). Eyeglass frame according to Claim 8, characterized in that the side opposite to that of the notch (52) of the limb (50) also comprises a notch for receiving the wedge (42a) of the bearing block (41). ) opposite the abutment (42) relative to the position of the attachment stem (43).