It is known that in general in mechanical construction it is desired in many fields (automobile, aeronautic, medical) to reduce the overall size of an assembly of this type while increasing its strength. For example, in the field of medical prostheses, the assembly of two parts is usually achieved by means of screws the heads of which project and consequently increase the overall size of the prosthesis resulting in considerable drawbacks for the patient. Assemblies of dovetail type are also known but these cannot support a high assembly prestressing and do not resist large wrenching forces.

An object of the invention is therefore to provide a device for interconnecting an elongate element and a support f° ^r said element which supports a very high assembly prestressing and involves no deformation or fracture of the connection if the prestressing is increased in an exaggerated manner.

According to the invention, the connection device comprises a slide so profiled as to be capable of being slidably inserted in the support coaxially with the elongate element and in intimate contact therewith, and said slide

comprises two lateral lips adapted to be cooperative with slide-clamping ramps provided in the support, the lips and the associated ramps being inclined relative to the axis of the elongate element and thereby achieving a self-clamping of each lip of the slide in the associated ramp of the support.

In one embodiment of the invention, the lateral lips of the slide are curved in the transverse direction and disposed in complementary channels of the support forming said inclined ramps.

According to another feature of the invention, the lateral lips of the slide have a rectilinear cross-sectional contour and are disposed in complementary grooves of the support forming said inclined ramps. In a particular application, the invention provides a spinal osteosynthesis device wherein the elongate element is a rod which is smooth or has surface asperities and extends along a vertebral segment to be straightened, while its support is a screw or a hook having a U-shaped body in which a slide is slid for clamping the rod to its anchorage element constituted by the screw or hook.

Further features and advantages of the invention will be apparent from the following description with reference to the accompanying drawings which illustrate several embodiments of the invention by way of non-limitative examples.

In the drawings:

Fig. 1 is a perspective view with parts cut away of a first embodiment of the connection device according to the invention.

Fig. 2 is a perspective and partly sectional view of a 5 second embodiment of the device according to the invention.

Fig. 3 is a longitudinal half-elevational view and half- sectional view taken on line 3-3 of Fig. 2.

Fig. 4 is an end elevational view of a third embodiment of the connection device according to the invention. 10 Fig. 5 is an exploded perspective view of a fourth embodiment of the invention applied to the assembly of a pedicular screw and a rod having surface asperities of a spinal osteosynthesis device.

Fig. 6 is a perspective view with parts cut away of the • _j 5 assembly of the rod and screw shown in Fig. 5 by means of a slidable slide according to the invention.

Fig. 7 is a side elevational view of the slidable slide shown in Figs. 5 and 6.

The device shown in Fig. 1 permits interconnecting an 2o elongate element 1 , such as a rod, and a support 2 for said element, the assembly of these two parts forming a cross- shaped structure. This device comprises a slide 3 which is so profiled as to be capable of being slidably inserted in the support coaxially with the elongate element 1 and in 5 intimate contact with the latter.

For this purpose, there is formed in the support 2 a recess 4 on the bottom of which the elongate element 1 can

bear when it extends through the support 2, the recess 4 also being so profiled as to be capable of housing the slide 3. The latter is so dimensioned that its surfaces are flush with the surfaces 2a, 2b of the support 2 when it is fully inserted in its recess 4 and bears against and clamps the element 1 to the support 2. The slide 3 has two lateral lips 5 capable of fitting by a movement in translation in complementary channels 10 in the support 2. Each channel 10, 11 defines a ramp 6 (one, 6, of these ramps is shown in Fig. 3, which section is also valid for the assembly shown in Fig. 1 ). The upper and lower surfaces of the channels 10, 11, their ramps 6, and the lips 5 are inclined at the same angle -* ^■ to the axis X-X of the elongate element 1. In practice, the angle t> is small, on the order of about 2 to 6°, and is therefore grossly exaggerated in Fig. 3 in order to facilitate the description.

The two lateral lips 5 are curved transversely in the direction toward the upper surface 2a of the support 2 and have a curvilinear contour in the same way as the remainder of the lateral surfaces of the slide 3 from which they project. Thus, each lip 5 is defined by a constricted first part 7 located in a narrow passage delimited by two confronting rounded bosses 8 laterally projecting into the recess 4, and a second enlarged and rounded part oriented toward the surface 2a. The two parts 7, 9 are received in their respective channel 10 of corresponding section formed in the support 2 , the two enlarged parts 9 being placed in

the corresponding lateral ramps 6. The section of the slide 3 connecting the lips 5 adjacent to the rod 1 of course has a profile 12 complementary to that of the rod 1 so as to marry up with the latter. 5 The assembly is achieved very simply: the rod 1 is inserted in the complementary bottom of the recess 4, then the slide 3 is slid along the surface of the rod 1 and inserted by sliding in the corresponding part of the recess 4. The insertion of the lips 5 in the inclined ramps 6 of o course occurs from the lower end of the latter in the direction of arrow F (Fig. 3). The slide 3 is then pushed along by a suitable tool so that the lips 5 slide in the channels 10, 11 and the ramps 6 until it reaches a position of a complete clamping of the slide 3 at the end of its 5 travel. In the last-mentioned position, the three surfaces of the slide 3 are flush with the two lateral surfaces 2b and the intervening surface 2a of the support 2.

The structure shown in Figs. 2 and 3 differs from the foregoing structure in that the lateral surfaces of the o slide 13 each include a rounded boss 14 which enters a complementary recess 15 in the support 16 and the elongate element is a cylindrical rod 17. Correspondingly, the bottom 18 of the channel receiving the rod 17 is semi- cylindrical, and a complementary semi-cylindrical recess 19 5 is formed in the slide 13. The lips 21, which have a similar profile to the lips 5 and have enlarged end parts 30, however extend lower down relative to the rod 17, their

first constricted part 22 being connected by a rounded portion to the adjacent bosses 1 .

The assembling device just described has the following advantages.

After assembly, the thickness of the assembly is substantially the same as that of the support 2 or 16 owing to the fact that the upper surface of the slide 3 or 13 is substantially flush with the upper surface of the support 2,

16. The same is true of the lateral surfaces of the slide

3, 13 and support 2, 16, so that the overall size of this assembly is distinctly smaller than that of a screwed assembly.

As opposed to the screwed assembly of two profiled bodies of cross-shaped structure, or a dovetailed assembly, the assembling device according to the invention is capable of supporting, as already mentioned, a particularly high assembly prestressing without dislocation or even without deforming. Further, when it is subjected to a load, this device is unaffected by exterior stresses or forces.

Indeed, the imbrication of the lips 5 or 21 in the complementary profiled channels of the support 2, 16 and the rounded and curved profile of these lips are such that even very high wrenching forces exerted in a direction transverse to the direction in which the lips 5, 21 extend cannot result in a deformation of the connection (provided of course that the materials of the two assembled bodies 1 , 2 or 17, 16 and the slide 3, 13 are sufficiently strong).

In the embodiment shown in Figs. 2 and 3, the bosses 14 and their recesses 15 oppose any extraction of the slide under the effect of transverse forces, this technical result being added to that already afforded by the lips 21. The possibility of prestressing at very high values provides an assembly system which is reliable and requires no particular precautions. A very strong or stable connection is thus obtained as concerns exterior forces exerted by the elongate element 1 on the support 2, 16, involving an axial sliding or rotation of the rod 1 or 17 in the support 2, 16.

The aforementioned technical effects are symbolically represented by the arrows F1 , F2, F3, F4: the arrows F1 represent the prestressing pressure of the rod 17 on the slide 13; the arrow F2 symbolically represents the force to which the lips 21 are subjected which tends to urge them out of their recesses under the effect of the pressure F1 resulting from the prestressing, the bosses 8 of the support 16 on each side of the constricted parts 22 opposing this outward movement; the arrows F3 represent bending forces on the support 16 which tend to cause the lips 21 to move out of their channels 10, 11 (arrow F4). The bosses 8 (which constitute additional lips to the lips 21 ) oppose this outward movement of the lips 21..

In the modification illustrated in Fig. 4, the lateral lips 23 of the slide 20 have a rectilinear cross-sectional contour and more precisely a dovetail shape in this

embodiment. The lips 23 are disposed in complementary grooves 24 in the support 25 which have, in the same way as the lips 23, a suitable inclination such as that of the ramp 6 shown in Fig. 3. Further, in order to be able to receive the cylindrical rod 17, the slide 20 has a cylindrical axial recess 26 and a recess 27 of complementary profile is provided in the bottom of the recess for the slide 20 in the support 25.

In the device shown in Figs. 5 to 7, the invention is applied to a connection between a spinal osteosynthesis rod 28 which has a smooth surface or a surface having asperities of the Cotrel type or knurling type, and an anchorage element 29 forming the support for the rod 28. The element 29 is, in the illustrated embodiment, a pedicular screw having a screw threaded portion 31 and a U-shaped head 32 defining a passage 33 between two branches 34. The screw 29 and the rod 28 are assembled by means of a slide 35 having a substantially U-shaped section whose parallel lateral tabs 36 are flexible so as to form a resilient clip or clamp and terminate in lips 37 which are of rounded shape, curve one toward the other, and include an enlarged end part 39 of substantially circular section. The two lips 37 are inclined at an angle ^■ (Fig. 7) to the axis of the rod 28.

Formed between the branches 34 of the head 32 is a seat 41 of semi-circular section against which the cylindrical rod 28 bears. The seat 41 is separated from the branches 34 by slots 42 extended by channels 43 the section of which

matches that of the lips 37 so as to receive the latter.

The channels 43, 44 define ramps which have, in the same way as the lips 37, an inclination C (Fig. 7) to the axis of the rod 28 when the latter bears against the seat 41. To achieve the connection between the screw 29 (which may be replaced in a modification by a pedicular hook having a U-shaped body 32) and the rod 28, the latter is placed on the seat 41 , the clamp 35 is slid along the rod 28 until its tabs 36 engage the inclined ramps 43 by resiliently spreading apart on each side of the seat 41. The clamp 35 is therefore slid along the rod until, at the end of its travel, its lips 37 are clamped against the respective ramps 43 which they completely fill.

The assembly obtained is illustrated in Fig. 6. It can be seen that the thickness of the connection is hardly increased relative to the height of the branches 34 by the curved central part 45 of the connection between the tabs 36 constituting a bridge on the surface of the rod 28.

The slide 35 is advantageously made from a soft non work-hardened material which marries up with the asperities of the rod 28 (for example constituted by diamond-shaped points) thereby affording a substantially irreversible clamping action. The lips of the slide 35 may be identical, as shown, or different.