FR2926855A1 - FLUIDIC CONDUIT DEVICE AND CASSETTE FOR PERISTALTIC PUMP - Google Patents

Abstract

Structure of fluidic conduits intended to be integrated in a cassette associated with a peristaltic pump. It comprises: - a rigid plate (16) having an end edge (18) - a duct assembly (22) formed in said plate - two connection means (28, 30) arranged in said end edge and connected to said duct assembly; a deformable tubing (36) extending out of said plate whose two ends (36b, 36c) are respectively connected to said connection means, said tubing having a substantially semicircular portion; to cooperate with the rotor (82) of the peristaltic pump; and a plurality of connection means (86, 90, 92) of said conduit assembly for connecting said conduits to fluid components for mounting on the cassette.

Description

The present invention relates to a fluidic conduit device intended to be integrated in a cassette associated with a peristaltic pump and a cassette using said conduit structure. The present invention can be used in particular but not exclusively for equipment for implementing the phacoemulsification technique. This technique is used to implement the so-called "cataract" operation, which consists, first of all, in breaking up the crystalline nucleus of a patient's eye, then in aspirating the crystalline fragments to leave only the capsular bag in which is placed the crystalline nucleus. At the same time, a liquid must be injected into the patient's eye to compensate for the liquid that is sucked in at the same time that the debris is extracted from the eye by aspiration. The aspiration of the crystalline nucleus debris is most often carried out using a peristaltic pump associated with a cannula or handpiece placed in the eye through an incision of reduced dimensions. Peristaltic pumps are of a well-known type and it is therefore not necessary to describe them in detail. Such a pump is described in particular in European patent EP 1 099 854. It is essentially constituted by a deformable pipe portion in the general shape of a circular arc on which acts a rotor equipped with rotary rollers acting with pressure on the deformable wall of driving. The action of the rollers on this pipe causes the displacement of the liquid present in the pipe. This pipe, of course, is connected by a first tube to the cannula or handpiece and a second tube which opens into a storage tank of debris and liquid sucked. As already indicated, it is desirable to also provide other pipes to replace as the liquid sucked into the eye, by injecting a replacement liquid. This injection is most often performed by the handpiece itself. It is known to constitute in particular the pipe on which the rollers of the rotor of the peristaltic pump act, to design the pump in two parts, on the one hand a removable rotor and on the other hand a structure which defines in particular the pipe-shaped arc of circle, pipe whose wall is of course deformable.

The part of the peristaltic pump which defines in particular the deformable conduit on which the rotor acts and which more often than not also defines other lines and other connection means of the device attached to the peristaltic pump is often called a cassette.

The European patent mentioned above describes a peristaltic pump and a cassette in particular usable for the phacoemulsification which has been defined above. In this patent, the cassette, and more particularly the pipe element on which the rotor of the peristaltic pump acts, is constituted on the one hand by a frame including the half of the driving element and on the other hand by a plastic film which has a thicker portion defining the other half of the pipe element. This plastic film is fixed on the face of the frame in which opens the recess defining a portion of the tube. The film of plastic material is glued or fixed on the face of the frame by any suitable means. Providing on the one hand the mechanism of the rotor of the peristaltic pump and on the other hand a cassette which defines the different lines in which the liquid drawn and the liquid injected to the patient will circulate, makes it possible to consider it as disposable, if it is desired, the cassette which of course can be affected by the circulation of this liquid while retaining the mechanical part and more particularly the rotor of the peristaltic pump. In the known embodiment described above, a problem consists in producing the plastic film, part of which must constitute an over-thickness in the form of a semicylindrical surface with an arc-shaped axis defining half of the the peristaltic pump. Moreover, the fixing, in particular by gluing, of the plastic film on the face of the frame raises a certain number of problems, and in particular sealing. Indeed, a significant pressure is exerted by the rotor rollers of the peristaltic pump on the associated driving element and the risk of leakage are therefore significant. Finally, this duct structure does not ensure that its internal diameter is perfectly constant. However, it is the constancy of this diameter that makes it possible to control the accuracy of the flow rate of the pump.

A first object of the invention is to provide a conduit structure that allows a simpler and more precise way to define in particular the duct structure to cooperate with the rotor of the peristaltic pump by conferring a substantially constant internal diameter on all its length. To achieve this object, according to the invention, the structure of fluidic ducts intended to be integrated in a cassette associated with a peristaltic pump, comprises: a rigid plate having an end edge; a duct assembly formed in said plate; two connection means disposed in said edge and connected to said duct assembly; - A deformable tubing extending from said plate whose two ends are respectively connected to said connecting means, said tubing having a substantially semicircular portion to cooperate with the rotor of the peristaltic pump; and a plurality of connection means of said duct assembly for connecting said ducts to fluid components for mounting on the cassette, said connecting means being mechanically integral with said plate. It is understood that thanks to the duct structure according to the invention, the deformable tubing which cooperates with the rotor of the peristaltic pump is constituted in one piece which thus guarantees a very good seal. Indeed, it is the two ends of this deformable tubing which are connected to end pieces made in the rigid plate of the duct structure. In addition, since the tubing is a stand-alone piece, it can be obtained by silicone molding. This manufacturing technique makes it possible to control with very great precision the internal diameter. Furthermore, since the deformable tubing is outside the rigid plate of the duct structure, it can be placed in the rigid support of the cassette of the peristaltic pump in such a way that the rotor of the peristaltic pump acts. effectively on the deformable tubing. Preferably, the conduit structure is constituted by a recessed relief formed in a face of the plate and a thin film sealingly attached to said face of the plate facing the recessed relief. Preferably, this thin film is silicone. More preferably, the conduit structure defines an area of larger dimensions than said ducts, said area being sealed by said thin film, said area constituting a pressure measuring region. A second object of the invention is to provide a peristaltic pump cassette which utilizes the conduit structure defined above.

According to the invention, the peristaltic pump cassette is characterized in that it comprises: a conduit structure according to the structure defined above; a rigid support comprising means for securing the support to the plate of the duct structure and for maintaining a constant distance between said plate and the support; and - means for fixing the deformable tubing on said support to give it a fixed shape as to its longitudinal axis. Other features and advantages of the invention will appear better on reading the following description of a preferred embodiment of the invention given by way of non-limiting example. The description refers to the appended figures in which: - Figure 1 is an exploded view of the main components of the cassette of the peristaltic pump showing in particular the conduit structure according to the invention; FIG. 2 is a perspective view of the cassette of the assembled peristaltic pump; Figure 3 is a sectional view along the line III-III of Figure 2; Figure 2; Figure 2; FIG. 4 is a sectional view along the line IV-IV of FIG. 5 is a sectional view along line VV of FIG. 6 is a top view of the assembled cassette showing in dashed line the setting up the rotor of the peristaltic pump; - Figure 7 is a top view of the cassette; - Figure 8 is a view of an additional structure of the cassette for mounting on the cassette of the peristaltic pump itself and some ancillary components of said pump; and FIG. 9 is a perspective view showing the complete cassette equipped with the peristaltic pump and the ancillary organs. Referring first to Figures 1 to 5, a preferred embodiment of the peristaltic pump cassette will be described.

As best shown in Figure 1, the cassette which bears the general reference 10 is constituted by a rigid support 12 made, for example, of polycarbonate and a conduit structure 14 which will be called later "cartridge". The cartridge 14 is intended to be placed in the rigid support 12 to thus constitute the assembly of the cartridge adapted to cooperate with the peristaltic pump. The cartridge 14 is essentially constituted by a plate 16 formed of a rigid material, preferably a polycarbonate, which has an end face 18 and an upper face 20. In the upper face 20, recessed reliefs are provided with the general reference 22. These recessed reliefs 22 are made in a recess 24 opening into the face 20 of the rigid plate. The countersink 24 may be closed by a removable part 26 made preferably of silicone. The end face 18 of the rigid plate 16 is equipped in its thickness with two connecting ends respectively referenced 28 and 30. These tips communicate with lines 32, 34 made in the thickness of the plate 16 and which will be described. later. On the end pieces 28 and 30 is connected a tubing 36 which has a first part 36a in the shape of a semicircle and rectilinear branches 36b and 36c. The ends of the branches 36b and 36c are connected to the end pieces 28 and 30. The end pieces 28 and 30 could be replaced by other connecting means of the ends of the tubing 36. These could be holes capable of receiving by wedging them. ends of the tubing. As seen in FIG. 1, the underside of the tubing 36 is provided with a rib 38 projecting from the wall of the tubing 36. The function of this rib 38 will be explained later. As already indicated, the tubing 36 is preferably obtained by molding silicone. This manufacturing technique ensures, on the internal diameter of the tubing, an accuracy of the order of 2 / 100th of mm. The tubing 36 could also be made by extrusion obtaining similar performance. In the countersink 24, the different grooves 22 consist essentially of a central groove 40 which constitutes a conduit for the circulation of liquid and which comprises an interruption 42 for the reasons which will be explained later and two lateral grooves 44 and 46 for receiving a fixing groove 46 formed in the inner face 26a of the additional part 26. These grooves also define a recess of generally circular shape 48 which communicates with the pipe elements 34 and 40 and which is intended to receive a pressure sensor as well as that will be explained later. The recess 48 is surrounded by a substantially circular groove 50 to receive the circular portion 52 of the rib 40 of the additional piece 26. It is thus understood that when the additional piece 26 is put in place in the countersink 24 of the cartridge 14 and fixed on it by the cooperation of the ribs 46 and grooves 44 and 45, the groove 44 is actually a conduit or more conduits whose function will be explained later. If we return to the rigid plate 12 or rigid support which with the cartridge 14 constitutes the cassette 10, we see that it has an upper face 60 in which is formed a housing 62 for receiving the rigid plate 16, a resilient clipping system not shown allows to maintain the cartridge 14 in the housing 62. In the upper face 60 of the rigid support 12 is formed a groove of substantially semicircular shape 64 which is opposite the tubing 36 when the cartridge 14 is placed in the housing 62. This groove 64 is intended to receive the rib 38 of the tubing 36 to immobilize the tubing 36 relative to the rigid support 12 and thus allow, as will be explained later cooperation between tubing 36 and the rotor rollers of the peristaltic pump.

In Figure 1, we also see that the bottom 64 of the housing 62 of the rigid support 12 is pierced with a number of orifices 66, 67, 68 and 69 whose function will be explained later. FIG. 5 shows in more detail the fixing of the tubing 36 on the rigid support 12 thanks to the cooperation of the rib 38 and the groove 64 formed in the upper face 60 of the rigid plate 12. In FIG. shown in more detail the cooperation between the removable part 26 and the rigid plate 16 of the cartridge. In this figure, it is more specifically shown how the circular recess 48 is made to allow the pressure measurement of the vehicle flowing in the inner pipe 34 and in the duct 40. In this region, the removable part 26 comprises in addition to the rib 52 a portion of reduced thickness 70 extending above the recess 48 formed in the rigid plate 16. The portion 70 has preferably a thickness of the order of 0.25 mm. As already explained, in this area, the removable part 26 is secured to the rigid plate 16 by the cooperation of a substantially circular rib 52 with a groove 50 formed in the countersink 24. As will be explained later it is thus possible to dispose against the part 70, which forms a very thin skin, of the removable part 26, a pressure sensor, this sensor being able to measure through the wall of reduced thickness 70. In FIG. , there is shown in more detail the cooperation between the removable part 26 and the rigid plate 16 of the cartridge in a connection area between the channel groove 40 and a connecting orifice. In this zone, the removable part 26 comprises in addition to the ribs 44 and 45 already described a slightly convex portion 72. In Figure 6, there is shown the cartridge 10 fully assembled with its rigid support 12 in which is mounted by clipping the cartridge 14 To better highlight the invention, the removable part 26 has not been set up so as to leave exposed the duct 40. In this figure, the dotted position shows the position of the rollers 80 of the pump. peristaltic 82 which act on the semicircular-shaped portion 36a of the tubing 36. In this figure, we also see that the end 36b of the tubing 36 which is connected to the inner pipe 30 is connected via from it to a fluid connection socket 84 corresponding to the bore 69 which is connected to a tubing opening into a bag for collecting debris and liquid. This figure also shows better that the branch 36c of the tubing is connected to the inner pipe 34 itself connected to the annular recess 48 of the pressure tap. Beyond the recess 48, there is the channel groove 40 which is connected to a connection terminal 86 corresponding to the bore 66 which is connected to a pipe, itself connected to the suction part of the handpiece. As already explained, the groove 40 is divided into two portions, a first portion 40a and a second portion 40b separated by a wall 88. The portion 40b of the groove 40 is connected to fluid connectors 90 and 92 corresponding to the holes 67 and 68 whose function will be explained later. In Figure 9, there is shown the complete cassette constituted by the cassette itself 10 already described and a metal plate 93 on which is articulated about the axis 94 the lower part of the cassette. This plate 93 serves as a mechanical support for mounting various components and in particular the motor and the rotor of the peristaltic pump 82 of a pressure sensor 96 which is arranged opposite the portion of reduced thickness 70 of the removable part 26. In this figure, the connection ends of the cassette such as 100, 102, 104 and 106, which make it possible to mount the appropriate pipes, in connection with the connection terminals already described, of the ducts, to enable the operation of the phacoemulsification plant and in particular the extraction of the crystalline debris by pumping out of the patient's eye and the injection of the replacement liquid. These terminals correspond respectively to the connecting lines to the collection bag, the irrigation line, the infusion line and the suction line connected to the chip by hand. Of course, other guiding and securing means between the cassette 12 and the metal plate 39. It goes without saying that the ducts defined, in particular, by the grooves 40, 40a, 40b or the circular recess and the room removable 26 could be made differently. Similarly, these conduits could consist only in the connection of the tube associated with the cannula with the peristaltic pump and in the connection of the peristaltic pump with the storage tank of the liquid and crystalline debris sucked, the injection in the eye replacement saline being made by other means external to the cassette. According to the preferred embodiment described, the cartridge 14 is removable relative to the support 12 of the cassette. Thus, it is possible to change only the cartridge. However, it would not go beyond the invention if the cartridge was secured to the support of the cassette or if these two elements were one and the same piece.

Claims (9)

1. Structure of fluidic conduits intended to be integrated in a cassette associated with a peristaltic pump, characterized in that it comprises: - a rigid plate (16) having an end edge (18); a conduit assembly (22) formed in said plate; two connection means (28, 30) disposed in said end edge and connected to said duct assembly; A deformable tubing (36) extending out of said plate whose two ends (36b, 36c) are respectively connected to said connection means, said tubing having a substantially semicircular portion to cooperate with the rotor ( 82) of the peristaltic pump; and a plurality of connection means (86, 90, 92) of said duct assembly for connecting said ducts to fluid components for mounting on the cassette, said connecting means being mechanically integral with said plate. 20 2. Duct structure according to claim 1, characterized in that the duct assembly is constituted by a recessed relief (40) opening into a face of the plate (16) and a removable thin film (26) fixed so sealed on said face of the plate facing the recessed relief. 25 3. Duct structure according to claim 2, characterized in that said recessed relief defines an area of greater dimensions (48) than said ducts, said area being sealed by said thin film (36), said area constituting a pressure measurement region. 30 4. Duct structure according to any one of claims 1 to 3, characterized in that said tubing (36) is made by molding. 5. pipe structure according to any one of claims 1 to 3, characterized in that said tubing (36) is made by extrusion.Il 6. Duct structure according to any one of claims 4 and 5, characterized in that said tubing (36) is silicone. 7. Duct structure according to any one of claims 1 to 6, characterized in that said connecting means are end pieces (28, 30) protruding out of said end edge of the plate and in that the ends ( 36b, 36c) of said tubing (36) are engaged on said end pieces. 8. cassette for peristaltic pump, characterized in that it comprises: - a conduit structure according to any one of claims 1 to 7, - a rigid support (12) comprising means for securing said support (12) with said plate (16) of the conduit structure (12), and for maintaining a constant distance between said plate and said support; and means (38, 64) for fastening said deformable tubing to said support. 9. Cassette according to claim 8, characterized in that, to fix said tubing on said support, it comprises a rib projecting from the portion of the tubing in substantially semicircular shape and a groove in a face said support and adapted to receive said rib.