FR2646927A1 - OPTICAL FIBER CONNECTOR DEVICE WITH IMPROVED LIFETIME COMPRISING A CENTERING PART MADE AT LEAST IN PART IN SAPPHIRE AND SHOCK WAVE GENERATING APPARATUS PROVIDED WITH SUCH A CONNECTING DEVICE - Google Patents

Abstract

The invention relates to an optical fibre connector device. Said connector device is comprised of a holding piece (12) for holding the optical fibre (14), and is characterized in that it has a support member (30) with which said holding piece (12) is at least temporarily integral, the support member (30) being provided with a sleeve (32) mounted coaxial and integral with respect to an external connection element (36) while defining a space (40) wherein is arranged a coaxial ring (34) translationally movable with respect to the assembly external connection element (36)-support element (30). Owing to this invention, the connection is made easier.

Description

Fiber optic connector device with improved lifetime comprising a centering piece made at least in part of sapphire and shock wave generation apparatus equipped with such a connector device.

 The present invention essentially relates to an optical fiber connector device with improved lifetime comprising a centering piece made at least in part of sapphire, and an apparatus for generating shock waves equipped with such a connector device, for destroying - targets, in particular tissues, lithiasis or concretions.

 We know that in lithotripsy, various devices are now available for the destruction of tissues, lithiasis or concretions, intended to be removed from inside the human body.

 Is known for example from US Patent RIEBER 2,559,227, a high frequency shock wave generator comprising a truncated ellipsoidal reflector (80) generating shock waves at the first focus of the ellipsoid which are focused at the second focus of the ellipsoid where the target to be destroyed is located. This device is used in the medical field, in particular for destroying tissue, and can also be used for destroying lithiasis or concretions.

 We also know the destruction of lithiasis or concretions by shock waves produced by ultrasound (see in particular DE-A-31 19 295 = US-A-4 526 168).

 Finally, devices are also known for generating shock waves for destroying targets, in particular lithiasis or concretions, from laser radiation. For example, document WO-A-86/06269 describes the use of laser for the destruction of lithiasis or concretions, as well as other materials to be removed from the human body. The laser radiation is transmitted to the concretion to be destroyed via an optical fiber.

The laser used delivers pulses having a wavelength, energy, intensity and duration of pulses capable of causing the destruction of the concretions, without the energy delivered being sufficient to cause damage to other tissues in the neighborhood. This document also corresponds to FR-A2 580 922. It is emphasized therein that the laser is preferably of the pulsed dye type, the pulses of which have durations of at least 10 nanoseconds (preferably between 0.05 and 5 microseconds) , and the energy of the pulse does not exceed 0.200
Joules. The fiber is flexible and has a core diameter which does not exceed 1,000 micrometers and which is preferably between 60 and 600 micrometers, and more precisely 200 micrometers. The laser pulses are applied in short bursts, preferably having a frequency above 10 Hertz and the remaining fragments are destroyed by single pulses.

 The wavelength used is preferably between 350 and 550 nanometers in the case of urinary calculi. Particularly preferred wavelengths are 251, 504 to 450 manometers (see page 2 lines 1 to 20 of FR-A 2,580 922).

A device for transferring (16,18) the radiation (20) emitted by the laser (22) comprises means for focusing the ray or optical beam (20) at a focal point, by
The intermediary of a focusing lens (18), constituting focusing means, as well as a device (16) for mounting the optical fiber (12) so that it receives optical radiation. The fiber (12) naturally passes through a uteroscope (14) to be brought close to the fiber to be destroyed, such as a lithiasis or concretion (10) (see page 3, lines 6 to 28). The mounting device (16) is not detailed in the request but is said to be of the SP2 type, available from
Newport Corporation (page 3, lines 14-15).

 One can also cite as an earlier document "Lasers in Surgery and Medicine", vol. 5, NI 2, 1985, page 160, abstract 82 and page 178, abstract 133, and page 189, abstract 163.

Another document is also made up of the journal
Photonics Spectra from September 1986 titled "The Dyes
Laser's Surgical Successes "written by Ronald L. CARROLL, or even the review" Lasers and Applications ", from April 1987, pages69-70,
Lasers have also been used to treat angioplasties (see EP-A-225 913 from international application
WO 86/0642).

 It has been observed that with the known devices the transfer of the optical radiation emitted by the laser to the optical fiber was carried out in an imprecise manner, which resulted in a reduction in the energy emitted and therefore in a loss of destruction destruction efficiency. target.

 A solution has been provided to this technical problem by a previous request from the applicant, not published to date, FR 88-07251 which provides a device for transferring a radiation or optical beam (12) coming from a laser (10 ) on an optical fiber (42) comprising means (106) for positioning the free end (42a) of the optical fiber (42), comprising means (108) for moving the end (42a) of the fiber optical (42), which is intended to receive the radiation or optical beam (12) in a plane substantially perpendicular to the optical axis. The displacement means (108) preferably comprise a set of two crossed plates (110, 112) preferably of micrometric type, moving respectively in two perpendicular directions (see claims).

 The positioning means (106) advantageously comprise a member (124) supporting the optical fiber coming to be introduced into a receiving member (122) of the support member, which is integral in displacement with the displacement means (110,112). The support member (124) comprises a substantially cylindrical sleeve (130) provided with a central through orifice (132) having an axial narrowing. (134) of suitable diameter to allow the optical fiber to pass substantially without play, while leaving the front end of the optical fiber free.

This narrowing (134) is preferably located substantially close to the end (130a) of the sleeve (130) intended to be located on the side of the reception of the optical radiation (12).

 This transfer device provides a considerable technical improvement over the previously known transfer devices.

 However, it has been observed that the maintenance of the end (42a) of the optical fiber by the narrowing - (134) of the support (124) was in some cases insufficient to precisely maintain the optical fiber. The free end (42a) can thus still be slightly off-center and thus no longer transmit the laser light in an optimal manner. In addition, the fiber is exposed to mechanical breakage.

Fiber optic centering parts are also offered by certain manufacturers, including the Company
Amphenol or Stratos. In general, these centering pieces are made of metal or ceramic. In these materials, the centering piece is quickly attacked by laser pulses which are very brief and of high power to be able to fragment the concretions. The material thus torn from this centering piece is deposited on the end of the optical fiber.

These deposits absorb the following laser pulses which quickly destroy it.

 To avoid the destruction of the optical fiber, a method which is generally employed consists in bringing out the optical fiber from the centering piece, which brings back the aforementioned drawback of a lack of protection of the end of the fiber. which is thus exposed to frequent mechanical breakage as well as a lack of optimal centering.

 The present invention therefore aims to solve the new technical problem of providing a solution to support extremely precisely the front end or optical face of an optical fiber, so as to increase the life of the optical fiber while protecting the optical fiber against mechanical breakage.

 The present invention also aims to solve this new technical problem using a solution ensuring optimal transmission of optical radiation, in particular very short, high power laser pulses.

 These new technical problems are solved for the first time by the invention in an extremely simple manner, easy to implement on an industrial scale.

 Thus, according to a first aspect, the present invention provides a fiber optic connector device with improved lifetime, allowing the transmission of very short and high power light pulses for an extended period of time, comprising a centering piece of the optical fiber, characterized in that the centering piece is made at least in part from an optically transparent material, having a hardness sufficient to resist said light pulses, and an optical index preferably higher than glass. Preferably, this material consists of sapphire, which has all of the above characteristics.

 Advantageously, the optical face of the optical fiber is flush with or slightly protrudes from the front edge of the centering piece.

 According to a particular embodiment of the connector device of the invention, the centering piece comprises a hollow cylinder in which the above-mentioned transparent material, which is of substantially annular shape, is encased towards the front face thereof.

 According to yet another particular embodiment of the invention, the above-mentioned centering piece is secured at least temporarily to a support member. Preferably, this support member comprises a substantially cylindrical sleeve provided with a central through-hole in which the centering piece is introduced in order to be fixed thereto.

 According to a particular embodiment of the invention, the aforementioned sleeve is secured at least temporarily to a movable ring mounted coaxially, mounted displaceable in translation relative to an external connection member.

 According to a particular variant embodiment, this external connection member comprises means of connection with a reception member of the external member de.connexion.

 According to another variant, this receiving member is part of a device for transferring optical radiation from an appropriate source, in particular a laser, preferably consisting of that described in FR-88-07251.

 The present invention also relates, according to a second aspect, to an apparatus for generating shock waves for destroying targets, in particular tissues, lithiasis or concretions, comprising a device for generating an optical beam or radiation which generates very short, high power light pulses, characterized in that it comprises a connector device according to the invention as defined above. Preferably, this shock wave generation device is characterized in that the aforementioned device for generating the radiation or optical beam comprises at least one dye laser of the pulsed type, preferably pumped by flash.

 This device may also include an auxiliary laser to materialize the optical axis for permanent observation of the target and the adjustments.

 According to the invention, the optical fibers are so-called "standard" optical fibers.

Other objects, characteristics and advantages of the invention will appear clearly in the light of the explanatory description which will follow made with reference to a currently preferred embodiment of a connector device according to
The invention given simply by way of illustration and which therefore cannot in any way limit the scope of the invention.

In the drawings - Figure 1 shows a general view of a device
connector according to the invention combined with an optical fiber; - Figure 2 is a sectional view along the trace lines Il-Il
of Figure 1 of the connector device, in clear view
enlarged to allow a better understanding of the
structure; - Figure 3 is an enlarged detail view of the part of
centering used in the connector device according to
the invention, with partial removal for better
comprehension ; and - Figure 4 shows the connector device according to
the invention connected to a receiving member preferably
comprising a plate of the type described in FIG. 3
of the applicant's previous application FR-88-07-251 which is
incorporated here by reference.

 With reference to FIGS. 1 to 4, a connector device according to the invention is represented by a general reference number (10). This connector device comprises a centering piece (12) proper, clearly visible in FIG. 3, of an optical fiber (14).

According to the invention, this centering piece (12) is made at least in part from an optically transparent material (16) having a hardness sufficient to resist light pulses, and an optical index preferably higher than Glass. One such material is a sapphire. Preferably, the optical face (14a) or front face of the optical fiber (14) is flush with or slightly protrudes from the front edge (12a) of the centering piece (12). Since the sapphire (16) is exposed
The front edge (12a) of the centering piece (12) itself, the optical face (14a) of the fiber (14) is flush and only slightly protrudes from the front face (16a) of the sapphire (16), thereby allowing extremely precise centering of the optical fiber (14).

 According to a particular embodiment, as shown, the centering piece (12) comprises a hollow cylinder (18) in which is encased, towards its front face, the sapphire (16), which is clearly visible in Figure 3 The sapphire (16) thus has a substantially annular shape which is advantageously of high precision. It will be observed that the optical fiber (14) is exposed inside the sapphire (16) by removing its sheath (20). The optical fiber is advantageously according to the invention a fiber called "standard" in general made of silica / silicone. Unlike the sapphire (16), provision can be made to secure the optical fiber (14) by its sheath (20) inside the hollow cylinder (18) of the centering piece t12) by the interposition of a plastic sleeve (22) whose internal surface, coming into contact with the sheath (20) comprises a thread so as to ensure mechanical retention of the optical fiber (14) and absorb the stresses resulting from the crimping of the centering piece (12) on the optical fiber (14). The assembly and disassembly of the optical fiber assembly (14) / centering piece (12) can be carried out conventionally by an external clip.

 According to a particular characteristic of the connector device according to the invention, the centering piece (12) is secured at least temporarily to a support member (30) clearly visible in FIG. 2.

 This support member can advantageously consist of a sleeve (32) which can itself be secured at least temporarily to a coaxial movable ring (34), mounted displaceable in translation relative to an external connection member (36).

 It will naturally be understood that the centering piece (12) is mounted coaxially inside the support member (30) as is clearly visible in FIG. 2.

 The sleeve (32) can be secured to the movable ring (34) by means of any securing means (38), such as a screw. The external member (36) comprises a recess (40) constituting a housing for the translational movement of the sleeve (32). The movable ring (34) can be pushed unilaterally towards the optical face of the optical fiber (14) by unilateral pushing means (42) such as a spring. The forward movement of the movable ring (34) can be conventionally limited to prevent the movable ring (34) from being ejected outside the external member (36). In addition, the front part (35) of the movable ring (34) may include an annular shoulder (35a) so as to abut against the front edge (36a) of the external member (36). The external member (36) may also include a relatively large flange (44) which makes it possible to constitute means of connection with a receiving member (50). This receiving member (50) may for example comprise a set of two discs (52, 54) which can be joined to the set of plates (110, 112) shown in FIG. 3 of the applicant's prior application FR88-D7251, which is incorporated here by reference. The intermediate disc (52) is secured with clearance (70) to the disc (54) by a securing means (53), such as a screw, around which a return means (55), such as a spring, tending to separate the discs (52) (54) from one another, arranged in a suitable housing (58a) (58b).

Due to the play (70), the disc (52) catches misalignments between the flange (44) and the disc (54).

Preferably, means (60) are provided for recognizing the type of optical fiber (14) used. These recognition means (60) comprise for example one or preferably, several breakers (62) or micro-breakers well known to those skilled in the art.
The art, arranged circumferentially on the disc (52) has different radii with respect to the axis of the disc (52) and therefore of the optical fiber (14).

 These breakers (62) are provided to cooperate with one or preferably, several annular grooves (64) provided on the opposite face (44a) of the flange (44), according to different radii corresponding to the radii of the breakers (62). These flanges have annular grooves (64) according to a function code of the type of optical fiber (14) used. Thus, the type of fiber used is automatically detected. This detected information is transmitted by information transmission means (not shown) to a control center comprising, for example, a computer, which uses this information to adjust the power parameters. a laser (not shown), emitting the desired light pulses. In this way, an extremely simple means of adjusting the power of the optical radiation is obtained as a function of the type of optical fiber used.

 In contrast to such a connector device according to the invention, perfect centering of the optical face (14a) of the optical fiber (14) is obtained, which allows the laser light to be transmitted optimally. In addition, thanks to the presence of the sapphire (16) transmitting the light in an optimal way in particular - without absorption, the centering piece (12), even subjected to very brief light pulses and of very strong power like those which are capable of fragment lithiasis or concretions, does not undergo a tearing of matter, so that the optical fiber remains intact for an extended period of time, which increases the life of the optical fiber. perfect centering of the optical fiber, the transmission of light pulses is perfect and there is no longer any mechanical breakage.

 This is particularly advantageous in the context of shock wave generation apparatuses which constitute a preferred application of the connector device according to the invention.

In the context of these devices, it is preferred that the light is emitted by a dye laser of the pulsed type, pumped by flash, such as that which is described in the prior application of the applicant.
FR-88-07251, incorporated here by reference.

 It is thus understood that an invention has just solved the technical problems previously stated and therefore constitutes unexpected particularly important technical improvements which are not obvious to a person skilled in the art.

 Naturally, the invention includes all the means constituting technical equivalents of the means described as well as their various combinations.

Claims (10)

1. An optical fiber connector device with improved lifetime, allowing the transmission of very short and high power light pulses for an extended period of time, comprising a centering piece (12) of the optical fiber (14), characterized in that the centering piece (12) is made at least in part from an optically transparent material (16), having a hardness sufficient to resist said light pulses and an optical index preferably higher than glass. 2. Device according to claim 1, characterized in that The material (16) of the centering piece (12) consists of sapphire. 3. Device according to claim 1 or 2, characterized in that the optical face (14a) of the optical fiber (14) is flush with or slightly exceeds the front edge of the centering piece (12). 4. Device according to claim 1 or 2, characterized in that the centering piece (12) comprises a hollow cylinder (18) in which is embedded towards the front thereof thereof the aforementioned transparent material (16) which is substantially annular in shape. 5. Device according to one of claims 1 to 3, characterized in that the centering piece (12) is secured at least temporarily to a support member (30). 6. Device according to claim 4, characterized in that the support member (30) comprises a sleeve (32) which is itself fastenable to mbins temporarily to a movable ring (34) coaxially mounted movable in translation relative to a member external connection (36). 7. Device according to claim 5, characterized in that the external connection member (36) comprises connection means (44) with a receiving member (50). 8. Apparatus for generating shock waves for destroying targets, in particular tissues, lithiasis or concretions, comprising a device for generating an optical beam or radiation, preferably of the laser type, characterized in that it comprises a connector device according to any one of claims 1 to 6. 9. Apparatus for generating shock waves according to claim 7, characterized in that the device for generating the aforementioned radiation or optical beam comprises at least one dye laser, of the pulsed type, preferably pumped by flash. 10. Apparatus according to claim 7 or 8, characterized in that the above-mentioned optical fibers (14) are so-called "standard" optical fibers