CA1315626C - Connecting device for adapting an end part on a liquid transfer apparatus - Google Patents

Abstract

Abbreviation A transfer device (50), in this case consisting of a syringe prefilled disposable type, has a container (51) containing the liquid to be injected, a piston (52), and a piston rod (53) fixed to the bottom of a capsule (54) carrying a tubular end piece (58). This tubular tip has a frustoconical inner surface (62) to allow the setting place of an insert (66) and a frustoconical outer surface (64), the conicity is 6%, allowing to receive a cap (59) of the type standard carrying a needle (60). A groove (73) is cleaned at the periphery of the insert (66) to allow the liquid to be injected to flow and avoid the existence of a large dead volume.

Description

DISI'OSITII ~ C) E CONNECTION FOR AD / ~ P I-ER Ul ~ l ORG ~ \ NE OF END
FOLLOWS AN APP / \ RI ~ IT OF TR ~ NSI EI ~ T OF A LIQUID.

The present invelltioll relates to a connection device for fitting a end member on a liquid transfer device, in particular a liquid drug.

Various devices for connecting end members are already known on liquid transfer devices. One of these devices is described by U.S. Patent No. 4,596,561, in which the transfer apparatus is a pre-filled syringe with unit dose and the end member is a needle secured to a suitable cap on a needle holder tip disposed at the end of the body of the syringe.

A crucial problem with these devices is that of dead volume, that is, the volume of medicine that remains in the syringe after injection. The problem is particularly acute when the device is fitted with a standard Luer truncated cone connection device having external dimensions of around 4 mm in diameter and with a taper of 6% on a length of 7 to 10 mm. These external dimensions are required to allow connection of the device has standardized female ends associated with elements also other than needles, multi-way valves, catheters, etc. Known in itself, this standardized tapered connection device commonly called "Luer conical assembly device 6 ~ O '' ~ has a central duct to allow the passage of liquid. We also know that it is technically impossible to reproduce rationally a tip of this type by injcctior) of a plastic material, when the conduit center has a relatively small section, because then the thickness of the walls of the truncated cone clevient prol) ortionnellernent too irnportante, which has for consequence of very slowly slowing down the injection cycle of the material thermoplastic, due to the fact that the cooling time of this material must be noticeably lengthened to avoid withdrawals.

To make a Luer type cmbout with a central channel diameter of the order of 0, ~ mm, so as to obtain a dead volume relatively done), the thickness of the walls of the truncated cone should be at minimum of about 1, ~ mm. For such a large thickness, the duration of the cooling phase of the synthetic material would be long and the It would tend to form bubbles. Therefore, it will be ~ almost impossible to respect the tolerances set by international standards concerning the male tapered luer-type e! nbouts 6%.

This is the reason why disposable syringes, which are currently manufactured, have a crossed Luer tip.
axially by a central duct whose diameter is of the order of 3 mm, which allows to obtain a lower sensi ~ Jernent wall thickness which is around 0.5 rr-m. This technological and economic imperative has a unfortunate consequence on the increase in dead space inside the axial duct of the end piece.

This dead space problem was tackled and partially solved by a device described in the European patent application pu ~ linked under the number 47042. The dead volume created by the relatively large dimensions of the axial duct arranged inside the needle holder ernbout of the syringe, is partially corrected by the insertion, at the end of the stroke, of a part frustoconical secured to the end of the piston. However, this system does not does not solve the problem of the standard assembly described above says conical Luer assembly 6%. Indeed, when we adapt a fernic tapered element on the male tapered Luer 6% tip, it there is always a space between the bottom of the female element and the end of the male end piece, which creates an uncontrollable dead space which is bothersome even dangerous, although used in some cases to create a visualization allowing the observation of the passage of the liquid.

American patent No. 4,240,425 proposes a construction making it possible to almost completely remove the dead volume in the injection syringes providing a connection device comprising on the one hand an emDout hollow tubular and on the other hand, a needle holder base, forrne substantially complementary, which adapts to said emDout. Disadvantage of this system resides in the fact that this needle holder base does not does not correspond to standard construction standards and prevents by therefore, replacing this special needle with a needle normalized if for some reason the special needle cannot be used. Indeed, if we put in place a standard needle with a 6% Luer base on the tip of this syringe, the problem of dead space mentioned above is again posed, and at the injection, the patient no longer receives the planned dose of the drug.

1 3 1 562t) The present h ~ v ~ ntion proposes to overcome all of the drawbacks above C'li realisallt Ull device key connection of the type described, allowing the use of gold ~ a ~ es cl'extrême equipped with supports conforming to norrrles h ^ rlposed by lc prh ~ cipe cle the assembly type Luer 6%, as well as the solving the dead space problem which is particularly crucial for injectable drugs, and in particular those where the volume active substance is extremely reduced.

For this purpose, the connection device according to the invention is characterized in what it includes a tubular end piece secured to the transfer device of the liquid, and an adapter integral with the end member, this tip tan-t provided with a central cavity and this adapter being associated with an insert arranged to engage in this central cavity, and in that this insert comprises at least one peripheral longitudinal groove arranged to define with the inner wall of the nozzle a passage channel for the liquid to to transfer.

~ According to a first embodiment of this device, the insert is secured to the adapter.

According to a second embodiment of this device, the insert is independent of the adapter.

The central cavity of the tubular end piece preferably has a wall frustoconical interior whose generators converge towards the apparatus of transfer.

The tubular end piece advantageously comprises u; ~ e outer wall frustoconical whose generators diverge towards the transfer device. For allow the use of a standard adapter conforming to standards imposed by the 6% Luer assembly principle, the taper of the wall outer frustoconical of the tubular endpiece is preferably equal to 6%.

According to a particularly advantageous use of the connection, the end member is a trocar comprising a first frustoconical end part, an intermediate part and a second part of tapered extension, said first end part constituting said insert engaged in the central cavity of the tubular end piece, the second intermediate part with an outside diameter greater than - 4 - 1 3 1,562 ~) diameter of the central cavity at its flared end, and the three parts of this troct ~ rt etallt notched by a peripheral longituclinal groove at least partially define the liquid passage channel to to transfer.

The intermediary part of the trocar is designed to be pressed against the free end of the tubular end piece.

According to another form of advantageous use of the connection device described, the end member is an injection needle, and the adapter has a bell-shaped cap arranged to fit so sealed over the tubular endpiece and carrying said injection needle.
The insert, advantageously independent of this cap, includes preferably a first frustoconical end part engaged in the central cavity of the tubular end piece, an intermediate part and a second end portion engaged in the interior cavity of said cap in the shape of a bell.

In this case, the shape of the second end portion of the insert is preferably designed in such a way that it occupies only part of the free space in the inner cavity of the bell-shaped cap, so as to provide a control chamber arranged to allow viewing the passage of the liquid by transparency through the wall of the cap.

In this case also, the intermediate part of the insert is advantageous-mentally arranged to bear against the straight end of the end cap tubular and against the inner wall of said bell-shaped cap.

According to a preferred embodiment of the device, the end member is a nasal nozzle having a rounded end portion formed at the end of an insert housed inside the tubular etnbout, and the channel passage of the liquid to be transferred leads to the base of the part rounded end between the walls of the insert and those of the end piece tubular. This passage channel advantageously comprises a section end which opens at an angle between 30 and 90 and preferably at least approximately 60C relative to the surface of the tubular end-piece and / or of the insert in the zone where the channel opens.

lielon ulle prclrlielc lorrl-lc de rcalisatiorl avarltage-lsc orgarle cl'extrcmité
coml) oltc Ull cl ~ rl) s avallcc à l'Inte ~ ricur duquc ~ l cst morlté an insert clcrirlissLIllt avcc la parvi h ~ tél-ieure cle ce corps un canal du liqlli (le ~ ct ce body comprises a stop wing which constitutes a stop clisposed to a clistancc predetellrlinée of the opening of the channel and a ~ encée to determine the depth of the liquid application application inside the pits nasal passages.

According to a second advantageous embodiment, the end member is a dropper, and the insert is provided with a flat element placed at its upper end, this flat element has a notch that extends the liquid passage channel formed between said insert and the nozzle tubular. This end member is preferably surmounted by a capucllon including Ull inner bead arranged to ensure, at the cap, a open position allowing the passage of gas contained inside the distributor and a sealed closing position. Said cap can have a lond associated with a bactericidal substance.

The present invention will be better understood with reference to the description of embodiments and of the appended drawing in which:

Figure I shows a first embodiment of the device according to the invention where the end member is a trocar, Iigure IA is ulle seen in cross section along line 1-1 of fig.l, Figure 113 shows a cross-sectional view along line 11-11 of Figure I, Figure IC shows a cross-sectional view along line 111-111 of figure 1, FIG. 2 represents a second embodiment of the device according to the invention where the end member is an injection needle of a liquid medication, Figure 2A shows a cross-sectional view along line IV-IV
Figure 2, Figure 21 ~ is a 'VUC` in tral colJpe ~ transverse scdon 1.1 line VV of the f igure 2, Figure 2C is a cross-sectional view along line Vl-VI dc la f igurc 2, FIG. 3 represents a variant of the device as represented by Ja figure 15 FIG. 4 represents a variant of the device as represented by the f igure 2, FIG. 5 represents another connection device according to the invention, usable colnllle nasal nozzle, FIG. 6 represents a variant of the connection device according to the invention, also usable as a nasal nozzle, Figure 7 shows another embodiment of the device connection according to the invention, usable as a dropper, and Figures 8 and 9 show a cap for closing the dropper of Figure 7, respectively in the open and closed position.

Figure I shows an apparatus 10 for transferring a liquid comprising essentially a container ll containing for example a liquid intended for be transferred to another container containing another liquid substance or solid, such as for example an Iyophilisate. This other substance can be contained in a bottle or sachet closed with a membrane intended to be pierced by Ull trocar 12 which constitutes the end member associated with the transfer device. This transfer apparatus further includes a piston 13 mounted at the end of a fixed rod 14, for example by welding using ultrasound or any other suitable means, at the bottom of a capsule 15 provided at its Jibre end with a tubular endpiece 16 in Jequel is housed said trocar 12. A membrane filter 17 is mounted between the bottom of the capsule 15 and the rod 14. The latter is hollow and contains a core 18, substantially cylindrical provided with a peripheral axial groove 19 which forms with the inner wall of the rod l 4 a longitudinal channel allowing the liquid to flow through said rod towards the - 1 3 1 5 ~ 26 filter 17.

The elni ~ out tubulail; c 1 (, coml> orte a cavitc ccntralc 20 which is defillie by UllC paloi intcricul (Zl of frustoconical form prolongs at its extremity adjacent to the lon (l of the capsule 15 by a wall anrlul; 3rd cylindrical 22.
The frustoconical wall 21 has generative keys converging in the direction of the transfer device. The outer wall 23 of the tubular tip IG is also tapered, but its generators are divergent in direction of the transfer device. The outer wall 23 preferably presents a taper of 6 ~ O to be adapted to international standards of the 6% Luer type assembly.

The trocar 12 includes at least a first frustoconical part 24 intended to be housed inside the tubular end piece 16. This part has a tapered lateral side ulle whose conicity is equal to that of the intél-ieure wall 21 of the tubular emt) out 16. It furthermore comprises ulle by ~ ie intermediate 25, substantially cylindrical, the diameter of which is greater than the inside diameter of the central cavity of the tubular eml) out 16, dalls its most flared area. Although the diameter of the part intermediate 25 could be equal to or even less than the outside diameter of tubular eml ~ out 16, the advantage of the larger diameter is that it allows to eliminate the risk of an erroneous adaptation of a standard needle on a transfer device containing a substance to be diluted before injection. The trocar 12 finally comprises a third conical part 26 intended to allow the drilling of a cup or a cover of a container intended to receive the liquid to be transferred, initially contained in the container l 1.

In the example illustrated, the frustoconical part 24 of the trocar is extended by a cylindrical ring 27 defines an annular shoulder 28 with the part 24 and clestince to engage ~ er in the cylindrical recess lirnite by the cylindrical wall 22 and cleaning at the base of the tubular endpiece 16 and at through the TOlld of capsule 15.

In this exemplary embodiment, the end member is a trocar whose role has been defined above. The adapter secured to the end member is in a way constituted by the point or conical part 26 of this trocar. The adapter is confused with the previously mentioned insert and these two elements are united in a single element which is the part trGnconi (read 24 of the tr-) c.lr t extended by the Daglle cylin (iri (read 27.

our allow .lu liqui (the ayar) t cross the filter 17 to flow in direction of the trocar pohlte 12, the cylindrical dagger 27, the element troncolliclue 21l, I'elen ~ slow interrrlediclire 25 and taper it taper 26 of trocar cornpor ~ ent a longitudinal barley peripl) erique 29 clui cooperates with pal-ois 22 and 21 r espectivelllellt formed in the bottom of the i5 capsule and in-térieul the tip tul ~ ulaire 16 to form a very Iaible channel section permitting the flow of the liquid while avoiding to form a Dead volume important for the transfer device concerned.

A protective cap 30 can be fitted over the trocar 12 and fixed by means known per se to the capsule 15 which has a Evidernent 31 suitable for its base.

The ring cylh ~ (lriclue 27 constitutes a gold ~ retaining ring which cooperates with the shoulder 28 to maintain the trocar 12 in position and the tightening of the intermediate part 25 against the free end of the end piece tubular 16.1-c this makes sealing at this level is perfectly ensured.

The main melrle;) e of construction is used to create the conduit longituciinal 1 ~), which allows the mol-t volume to be reduced to a minimum dc the trallsfer eyebrow, i.e. the volume of residual liquid after operation cie transIert.

Figures IA, 11 ~ and IC illustrate by means of the VUC! S in section, respectively seloll lines ll, 11-11 and lll-lll, the geometry of diIferentes paltics du barter.lrt fig. 2 rcprcscllte a 50 dc liquid transfer device, presenting in the form of a single-dose or multiple-dose syringe of the je-table type.
This serinL ~ ue has essentially a container 51 containing the injectable drug, a piston 52 enga ~ ea the end of the container 51 and rnontée on a rod 53 sensiblernent cylindrical fixed, for example by ultrasonic welding at the bottom of a capsule 54 comprising dc ux fins 55 for gripping the syringe The rod 53 is hollow and has a core 56 of substantially cylindrical shape. A filter 57 is positioned at the bottom of the capsule 54. This capsule is extended by a tubular eml ~ out 58 which constitutes a needle holder emrout agency to receive a sapucnon -) - 1 3 1 5 6 2 6 S ') in fol lnc clc clO (t ~ e (it carries ul-the needle G ~). F \ varlt its use, ur c.ll) u ~ cde protectioll cst mollte a la exlrernite de la capsule 54 pour maintain the needle in a sterile environment the emi) out tuDulaire 58 has the same shape and the same dimensions as the tubular ermbout 16 described with reference to fig. 1. Its interior surface 62 is sensiblernent -troncollique, and extended to its lower end i ~ ar a cylindrical annular wall 63. Its outer surface 64 is tapered tapered and has a conicity of 6% permarlt the connection of a standard needle holder element, in the Dut to authorize Ull assernDlage c of the Luer type at 6%. Cap 59 has a conicity interior of 6% and fits perfectly on the tubular tip 58.

The core 56, housed inside the tubular rod 53, makes it possible to avoid too much dead volume The drug passing through the piston 52 by means of a conduit (not shown), flows axially through a longitudinal channel defined by a groove formed at the periphery of the nucleus 56 and by the inner wall of the hollow cylindrical rod 53. In this same DUt, to be used to limit the dead volume, namely the volume of medicarnent remaining in serincg ~ eu after injection, an insert 66 is engages in the frustoconical cavity defined by the tubular nozzle 58. This insert essentially consists of a frustoconical first part 67 fully engaged inside the tubular ernbout 58, partly intermediate 6S which rests on the one hand on the anular surface end of the tubular end piece 58 and, on the other hand, on the inner wall the cap 59 pol-as the needle 60, to form a sort of joint of eternity cntrc these two ?; composallts The insert has a third part 6Y, the shape and dimensions of which are not to be avoided fill the volume of the remaining part of the inner cavity ducapucl ~ on 59, the malliele key to a cnamDre visualisatiorl key allowing to see the medicamerlt to be injected at the time of the injection, through the transparent or semi-transparent cap 59. The lower end of the first frustoconical part 67 of the insert 66 has an element cylindrical 71 whose i ~ ut is to form a retaining member now the insert in position in the tubular end piece 58. A groove 73 is formed at the peripl ~ erie of the insert 66 for? erme-ttre the flow of liquid a inject having passed through the filter 57 and to bring it into the visualisatiorl which communicates with the lower end of the needle 60.

Lcs fig. 2A, 21 ~ ct 2C, which represents the views it cuts along the lines IV-IV, VV and Vl-VI, illustl-ent respectively the shape of the capucilon 5 '), of the super ure part 65 of the insert 66, of the b ~ tertiary portion 68 of this insert, of the lower part 67 of the insert 66 and finally on channel 73.

In this case ~ insert 66 is an independent piece forcibly engaged at inside the tuL) tip uJaire 58 and intended to limit at least the dead volume, i.e. the residual volume of injectable drug after use of the syringe, while allowing the use of needles standarbs with 6% Luer type sintering.

Fig. 3 shows a variant of the device shown in FIG. 1. A
conventional syringe 80 with piston 81, attached to the end of a rod piston 82, is fitted with a tubular ernDout 83 identical to that described in reference to Iig. 1. This emDout receives a trocar 84 which is at all points identical to the one described above. In this figure, the trocar 84 has been used to perforate a membrane 85.

Fig. 4 represellte ulle syringe 80, identical to that of fig. 3, comprising a fixed piston 81 at the end of a piston rod 82 and fitted with a tubular socket ~ 83. On this ernDOUt is fixed a capucnoll 86 carrying a needle 87, which are strictly identical respectively to cap 59 and the needle G0 represented by FIG. 2. An insert 88 is housed inside the end fitting 83. The devices of FIGS. 3 ct ~
allow to show that the trollconic tip tcl as described above, intended to allow url assemL) lage starlclard type Luer 6 '' ~ "can be fits on any known transfer device.

In the example shown in fig. 5, the connection device 90 is intended to be used as a nasal nozzle, ie as a distributor d'ull méciicamellt SUI the nasal mucosa 11 includes as preces-lastly a tubular nozzle 91 provided with a central axial opening in which an insert 92 is engaged. The central opening of the endpiece -tubular 91 is slightly conical. It is the same with the part lower of the insert intended to be engaged ~; ee in this opening The upper end of insert 92 has a rounded shape substantially spileric which can come into contact with the mucosa without risk injuring them. A conduit 94 is formed between the interior wall of the tubular end piece 91 and the outer wall of the insert 92, to ensure The flow of the neciicarnentous liquid initially contained in the lecil) ient (not rcpl c sente) on which is aclal> te the connection device90. This channel apparently parallel to the axis of the insert in its part lower deviates and forms an angle of about 60 in the vicinity of its upper extremity. This inclination allows the medication to be deposited directly on the nasal mucous membranes and thus ensuring good absorption of active product.

Fig. 6 illustrates another embodiment of a nasal nozzle, which is in somehow a ComDinaiSOn of the device illustrated in fig. 2 with that of fig. 5. Indeed, this connection device 100 includes a tip tubular 101 inside which is inserted an insert 102 which is substantially identical to the insert 66 of the device of FIG. 2. The nasal reuse used so-called consists of a body i03 which fits over the end piece tubular 101, over insert 102. This tubular body has a central bore which is largely closed by a second insert 104, substantially identical to the insert 92 shown in FIG. 5, and who is moving in, between the inner wall of the body 103 and the outer wall of the second ldit insert 104, a lateral channel 105 whose form and function are substantially identical to those of channel 94 of the Iigure device former. At its base, the body 103 is provided with a fin l 06 which constitutes a stop whose role is to define the depth at which is press the nasal nozzle into the nose, i.e. the area in which distribute the medication. This depth is chosen in such a way that the area of distribution of the drug corresponds to a preferred area absorption of nasal mucosa.

The lig. 7 illustrates a further conlection device 110 which has a dropper function. In this example, insert 111, which is housed inside the erni ~ out tubul3il e 112, is surl-nonté of a flat element 113 provided with a notch peril) hericlue 1 14 which communicates with the canal longit, ldinal 1 15 bordered by the inner wall of the tubular outlet 112 and by the wall an axial cut in the insert 111.

Figs. 8 and 9 show the device shown in FIG. 7 and him associate a tight fitting cap 116. In FIG. 8, this cap 116 occupies an open position allowing degassing, that is to say the evacuation of the air contained inside the distributor body in the direction of arrow D. In fig. 9, the cap 116 is represented in its position of ermeture in which it ensures a tight oluration of the clistriL channel) uteur 115. f ~ this effect, the inner side wall ~ lu capu ~ llon 116 has an annular runner 117 which can be arranged, thanks to the relative elasticity of the material, above the flat element I ll ~ which back the insert 11 to take support, below this? lat element, against the outer wall of the tubular end piece 112. The shaft 118 of the inner cavity of the cap 116 can be treated by means of a suDstance bactericidal, or may carry a blister of a bactericidal substance which Urination for permanent disinfection of the flow area of the account drops. This a ~ encement is particularly advantageous cians a system dropper which is clestine to be used repeatedly, cl ~ aque utiJisation bringing the dropper in contact with the environment and therefore allowing contamination between the Different uses, the storage period allows the action of the bactericidal substance and thereby generates decontamination systematic of the contaminated area.

It is understood that the present invention is not limited to the forms of realization described, but may undergo different mociifications and present in various variants obvious to man under art. This is as well as the form and dimensions of the various components of the drip tip or nasal nozzles, as well as the protective cap and possibly bactericidal, can be modified as needed or depending on manufacturing irnperatiIs.

In the case of the nasal nozzle, the pararnetres, abutment, inclination of the area end of the channel and diameter of this channel, can be changed by depending on the type of medicarnent administered and its viscosity. The position of the bu fin key illustrated in fig. 6 also depends on the position of the preferential zone of absorption of the nasal mucosa. In the case of dropper, the external shape of the insert can be adapted to the intended use for this dropper account. The goal is to file a calibrated drop in the eyes, on the surface of the body, in the mouth or still in a glass for dilution in water or another liquid to absorb The fundamental advantage of such a dropper, mounted on a piston distributor, is that the evacuation of the drop is controlled by the action of the piston. Unlike dropper conventional, there is no gas reabsorption inside the body of the ~ distri-- 13 - 1 31 5 ~ 26 re ~ ror ct par c onscqucnt no ris {lue contalr ~ tion key 1: 1 solutio medicarl-lerlteusc coilterlue inside (; rior of this clistribut ~ ur.

Claims (18)

1. Connection device for adapting an organ end on a liquid transfer device, in particular of a liquid medicine, characterized in that it includes a tubular end piece secured to the transfer device liquid, and an adapter integral with the end member, this tip being provided with a central cavity and this adapter being associated with an insertion pad arranged to engage in this central cavity, and in that this insertion pad comprises at least a peripheral longitudinal groove arranged to define with the inner wall of the nozzle a liquid passage channel to to transfer. 2. Device according to claim 1, characterized in that that the insertion stud is secured to the adapter. 3. Device according to claim 1, characterized in that that the insertion pad is independent of the adapter. 4. Device according to claim 1, characterized in that that the central cavity of the tubular end piece has a wall frustoconical interior whose generators converge towards the transfer device. 5. Device according to claim 1, characterized in that that the tubular end piece has a frustoconical outer wall whose generators diverge towards the transfer device. 6. Device according to claim 5, characterized in that that the taper of the tubular endpiece is 6%. 7. Device according to claim 1, characterized in that that the end member is a trocar, comprising a first frustoconical end part, an intermediate part and a second part of conical end, in that this first part end constitutes said insertion pad and engages in the central cavity of the tubular end piece, in that this part intermediate has an outer diameter greater than the diameter of the central cavity, at its flared end, and in that the three parts of this trocar are cut by a groove peripheral logitudinal defining at least partially the passage channel for the liquid to be transferred. 8. Device according to claim 6, characterized in that that the intermediate part of the trocar is arranged to be in support against the free end of the tubular end piece. 9. Device according to claim 1, caracyerized in that that the end member is an injection needle, in that the adapter is a bell-shaped cap with a cavity interior and arranged to fit tightly over the tubular nozzle and carrying this injection needle and in this that the insertion stud independent of this cap, comprises a first part of frustoconical end engaged in the cavity central of the tubular end piece, an intermediate part and a second end portion engaged in the interior cavity of said bell-shaped cap. 10. Device according to claim 9, characterized in that that the shape of the second end part of the insertion pad is designed in such a way that it occupies only part of the free space of the inner cavity of the cap-shaped bell, so as to provide a control chamber arranged for allow to see the passage of the liquid by transparency through the wall of the cap. 11. Device according to claim 9, characterized in that that the intermediate part of the insertion pad is arranged to bear against the free end of the tubular end piece and against the inner wall of said bell-shaped cap. 12. Device according to claim 1, characterized in that that the end member is a nasal nozzle comprising a part with a rounded end formed at the end of an insertion pad housed inside the tubular end piece, and in that the channel of passage of the liquid to be transferred leads to the base of the part of rounded end between the walls of the insertion pad and those of the tubular end piece. 13. Device according to claim 12, characterized in that that the passage channel has an end section which opens at an angle between 30 and 90 degrees and preferably at least approximately 60 degrees from on the surface of the tubular end piece and / or the insertion stud in the area where the canal opens. 14. Device according to claim 12, characterized in that that the end member has a body advanced inside from which is mounted an insertion stud defining with the wall inside of this body a channel of the liquid, and in that this body has a stopper wing which constitutes a stopper arranged at a predetermined distance from the opening of the channel and arranged for determine the depth of the liquid application area to inside the nasal cavity. 15. Device according to claim 1, characterized in that that the end member is a dropper, and that the insertion pad is provided with a flat element arranged at its upper end, this flat element comprising a notch which extends the liquid passage channel formed between said pad and the tubular end piece. 16. Device according to claim 15, characterized in that that the end member is surmounted by a cap comprising a inner bead arranged to ensure the cap, a position opening allowing the passage of gases contained inside the distributor and a sealed closing position. 17. Device according to claim 16, characterized in that the cap has a bottom associated with a substance bactericide. 18