FR2937265A1 - Fluid product e.g. cosmetic product, distributing device i.e. distributor, has coupling end received in reception housing, and air passage communicating with duct in positions of end to move air flow system relative to mounting assembly - Google Patents

Abstract

The device has a mounting assembly (1) mounted on a reservoir and comprising a pressurized air duct (41) opening near a distribution orifice (51) of fluid product. An air flow system (6) e.g. crushable, flexible pear, has a rigid coupling end (7) defining a pressurized air passage (71). The assembly has reception housing (47) in upstream of the duct. The coupling end is received in a sealing and movable manner in the housing, so that the air passage communicates with the duct in relative positions of the end with respect to the housing to move the system with respect to the assembly.

Description

upstream of it. By crushing the soft bulb, air is forced under pressure through the air duct towards the dispensing orifice. This air flow has the effect of creating a vacuum inside the fluid channel which is generally connected to the tank by a dip tube. As a result, the fluid product is sucked into the fluid product channel by the pressurized air flow by a well-known Venturi effect phenomenon. Thus, the fluid product from the channel is introduced into the air flow leaving the air duct. The fluid product mixes with the air stream and the mixture thus obtained is expelled through the dispensing orifice in the form of fine droplets of fluid product. This type of pear dispenser thus comprises two separate subassemblies, namely a mounting assembly which is mounted on the neck of the tank and a flush of air, for example in the form of a crushable soft pear. Air flushing is conventionally connected to the mounting assembly by a flexible tube, thereby allowing free movement of the air flush with respect to the mounting assembly. However, such a configuration using a flexible connecting tube has advantages. First of all, during assembly, it is not easy to connect the ends of the flexible connecting tube to both the assembly assembly and the flush. Then, it is not easy to dispose the air flush inside a package, because of its great freedom of movement. This is particularly the case when the arrangement of the dispenser inside the package is automated. Another disadvantage arises from the fact that the flexible connecting tube 25 represents the weak link of the dispenser, since it is easily deteriorable. The present invention aims to overcome the aforementioned drawbacks by finding an advantageous alternative to the flexible connection tube of the prior art. The dispensing device of the invention will in particular be easy to assemble, easy to arrange in a package and easy to use without risk of deterioration of the connection between the assembly assembly and the flush of air.

To achieve these various objects, the present invention provides a fluid dispenser device for association with a fluid reservoir for forming a fluid dispenser, the device comprising: - a mounting assembly for mounting on the fluid dispenser; reservoir, this assembly comprising a fluid dispensing orifice, a pressurized air duct opening near the orifice, and a fluid product channel connecting to the air duct near the orifice, the product fluid in the channel being sucked by the pressurized air flow by Venturi effect, so as to dispense a mixture of air and fluid through the orifice, and - a flush of air, such as a flexible crushable bulb, connected at one end upstream of the air duct to supply a flow of pressurized air through the air duct, the air flush is provided with a connecting end defining i nally a pressurized air passage, characterized in that the assembly comprises a receiving housing upstream of the air duct, the nozzle being sealingly received and movable in the housing so that the passage of The air communicates with the air duct in a plurality of relative positions of the nozzle relative to the housing so as to be able to displace the flush of air relative to the assembly assembly. In the prior art, the free end of the flexible connecting tube can be likened to a connection piece, but this end piece is not movably received inside a housing: on the contrary, the end Free connection of the flexible tube is simply fixedly received and sealed on a socket or inside a housing. The advantageous feature of the invention lies in the fact that the tip is movably received in the housing while ensuring sealing and communication between the air duct and the air passage. According to an advantageous characteristic, the connection piece is rigid and is rigidly connected to the air flush so that the mouthpiece defines a positioning axis Z for flushing. In other words, this means that the connection piece is a rigid piece connecting the assembly assembly to the flush, so that a particular positioning of the connection piece relative to the assembly assembly determines the positioning of the air flush relative to the assembly assembly. It can thus be said that the connection endpiece engaged in its housing performs a function of articulation. Advantageously, the connection piece is rotatably mounted in its housing. The rotational term must be understood in its widest sense, that is, allowing rotation around a point or an axis. According to a practical embodiment, the endpiece comprises an end section defining a connection axis Y, this section being engaged in the housing rotatably on itself about the axis Y. Advantageously, the endpiece comprises a initial section which does not extend in alignment with the connection axis Y, so that a rotation of the terminal section in the housing causes a displacement of the initial section, and consequently of the hunting of air. The air duct may be aligned with the connection axis Y. In a variant, the air duct may make an angle with the connection axis Y. To ensure the perfectly axial positioning of the connection end, the housing 20 may form an axial guide sleeve for the tip. According to another practical embodiment of the invention, the endpiece may comprise a ball head engaged in the housing, the air passage passing through the ball head, the endpiece being pivotally movable around its ball head. while maintaining communication between the passage and the conduit. In this case, the rotation of the connection piece is made around a point, advantageously located in the center of the ball head. According to another characteristic which may be common to the two embodiments previously described, the communication between the air passage and the air duct may be interrupted in a particular relative position of the nozzle relative to the housing.

A principle of the present invention is to associate a rigid connection piece to the air flushing, this rigid connection piece being connected to the assembly assembly sealingly and movable at a time.

The invention will now be further described with reference to the accompanying drawings which give by way of non-limiting examples several embodiments of the invention. In the figures: FIGS. 1a and 1b are views in vertical cross-section through a fluid dispenser device according to a first embodiment of the invention, respectively in the closed position and in the open position of use, FIGS. 2a and 2b are vertical cross-sectional views through fluid dispensing devices according to a second embodiment of the invention, and FIG. 3 is a view similar to that of FIG. 1b. for an alternative embodiment. Reference will first be made to FIGS. 1a and 1b to describe in detail the first embodiment of the invention. The fluid dispensing device essentially comprises two components, namely a mounting assembly generally designated numeral 1 and an air flush 6. The air flush 6 is connected to the assembly of the fluid assembly. assembly 1 by means of a connecting piece 7 which can be considered as an integral part of the flush 6. The assembly assembly 1 is intended to be mounted in a sealed manner on the opening of a tank (not shown) The assembly assembly comprises several constituent elements, namely a body 2, a fixing ring 3, a dispensing head 4 and a nozzle 5. The body 2 comprises an inlet pipe 22 in which is engaged a dip tube 21 intended to extend inside the tank to near its bottom. The body 2 defines in the extension of the inlet pipe 22 a first portion of a fluid product channel 24. The body 2 also forms a fastening flange 23 which is engaged with the fixing ring 3. A seal of neck 35 may be provided under the flange 23 around the tubing 22. The fixing ring 3 comprises fastening means 31 for fastening the ring 3 around a tank neck. These fixing means can fulfill a latching function, screwing, etc. The body 2 may also define a vent passage for introducing outside air through the body 2 into the tank. The head 4 is mounted displaceably in axial translation or by screwing on the body 2. The displacement of the head 4 relative to the body 2 makes it possible to close or open the fluid product channel 24 as well as the passage eventual venting. The head 4 defines another fluid product channel portion 24 in the extension of the portion formed by the body 2. The fluid product channel 24 extends to the level of a dispensing orifice 51 formed by the nozzle 5 The head 4 also forms a duct 15 of pressurized air 41 which also opens, together with the channel 24, close to the dispensing orifice 51. At its upstream end, the pressurized air duct 41 is provided with a receiving housing 47 for the connecting end 7. Advantageously, the housing 47 may be provided with an axial guide sleeve 48, which extends in the embodiment of FIGS. 1a and 1b, along an axis Y which is inclined with respect to an axis X over which the pressurized air duct 41 extends. In this first embodiment, the connection endpiece 7 comprises a terminal section 72 which is engaged to the inside the housing 47 and the sleeve 48, this end section 72 extends The connection tip also defines an initial section 73 which is located outside the housing 47 and the sleeve 48 and which extends along an axis Z which is at an angle to the Y axis. The two end sections 72 and 73 define internally a pressurized air passage 71. The end of the initial section 73 is fixedly connected and air-tight 6. Advantageously, the flush air can incorporate a valve system allowing outside air entry and preventing fluid entry. In a conventional manner, the air flush can be carried out in the form of a crushable pear. The connection between the connection piece 7 and the air flush 6 is such that it is the tip 7 which imposes the positioning and the orientation of the flush 6. According to the invention, the mouthpiece connecting piece 7 is made by injection of substantially rigid plastic material, so that the connection piece is rigid. According to the invention, the connecting piece 7, and more particularly its end section 72, is engaged inside the housing 47 and the optional sleeve 48 both sealingly and movably. The displacement of the tip 7 inside the housing 47 is here by rotation of the terminal section 72 on itself about the Y axis. Since the initial section 73 is at an angle to the section terminal 72, the rotation on itself of the terminal section 72 will cause a displacement of the initial section 73 in a path that forms a cone. Thus, the air flush 6, while being fixedly connected to the nozzle 7, can move, also in a conical trajectory. Figures 1a and 1b show two extreme positions of the air flush 6; in FIG. 1b, the positioning axis Z of the flush 6 is parallel to the axis X of the pressurized air duct 41, while in FIG. 1 the positioning axis Z of the flush 6 cuts the X axis. It may also be noted that the passage of pressurized air 61 at the end section 72 is not displaced during the rotation of the end section, since it is centered on the Y axis. It is thus possible to guarantee a communication between the passage 71 and the duct 41, whatever the position of the flush 6. However, according to an advantageous embodiment, it is possible to provide a particular position. shown in Figure 1, wherein the communication between the passage 71 and the conduit 41 is interrupted. It suffices for this to provide a particular profile at the tip 7 which closes the entrance to the conduit 41. This is a very optional feature. In this first embodiment, the displacement of the air flush with respect to the mounting assembly is obtained by means of a rigid elbow connection piece which is rotatable about a Y axis.

Referring to Figure 3, we see an alternative embodiment of the first embodiment, in which the only difference lies in the orientation of the axial guide sleeve 48 whose axis coincides with the axis X of the air duct Under pressure 41. As a result, the axial orientation of the end section 72 of the tip 7 is changed, and therefore the movement of the flush 6 is also changed. Referring now to FIGS. 2a and 2b, there can be seen a second embodiment of the invention in which the displacement of the flush 6 is no longer performed around an axis, but around a point , so that the degree of freedom of movement of the flush 6 is increased relative to that of the first embodiment. To do this, the assembly assembly 1 may have a design substantially similar to that of the first embodiment. However, the housing 47 'is specially adapted to receive a ball head 74 integral with the connecting piece 7'. This nozzle also defines a passage of pressurized air 71 which passes through the ball head 74. Thus, the communication between the passage 71 and the duct 41 is ensured regardless of the positioning of the head 74 in its housing 47 '. In this embodiment, the passage 71 extends along an axis Z which is coincident with the axis 20 of symmetry of the flush 6. The axis Z can thus be displaced with respect to the axis X, and even confused with this axis X. It can also be said that the tip 7 'and its flush 6 associated rigidly are movable by pivoting around the ball head 74 which defines a fixed pivot axis relative to the assembly assembly 1 As in the first embodiment, a particular position can be defined in which the communication between the passage 71 and the conduit 41 is interrupted. In this embodiment, the connecting piece 7 'is rectilinear, but it can also be imagined that it is bent or arched so that the air flush 6 is no longer positioned on the Z axis, but offset by compared to 30 this one. In all the embodiments that have just been presented, the connection piece is fixedly connected and rigid with respect to the air flush 6. It can however be imagined without departing from the scope of the invention that the hunt air 6 is not rigidly connected to the tip, but on the contrary connected by means of a flexible or resilient connection. It is also conceivable in the context of the invention that the air flush 6 is not made in the form of a conventional crushable soft pear. Thanks to the invention, the air flush 6 is rigidly connected to the assembly assembly 1, while maintaining one or more degrees of freedom, however imposed or induced by the positioning of the connection piece relative to to the assembly assembly.

Claims (1)

Claims1.- Fluid dispensing device intended to be associated with a fluid reservoir for forming a fluid dispenser, the device comprising: - a mounting assembly (1) intended to be mounted on the reservoir, this assembly ( 1) comprising a fluid dispensing orifice (51), a pressurized air duct (41) opening in proximity to the orifice (51), and a fluid product channel (24) connecting to the duct air (41) near the orifice (51), the fluid product in the channel (24) being sucked by the flow of pressurized air by the Venturi effect, so as to distribute a mixture of air and product fluid through the orifice (51), and - an air flush (6), such as a crushable soft pear, connected to an end upstream of the air duct (41) to feed a flow of air under pressure through the air duct (41), the flush (6) is provided with a connecting piece (7). 7 ') internally defining a pressurized air passage (71), characterized in that the assembly (1) comprises a receiving housing (47; 47 '; 47 ") upstream of the air duct (41), the nozzle (7; 7 ') being sealingly and displaceably received in the housing (47; 47'; 47 '') so that the passage of air (71) communicates with the air duct (41) in several relative positions of the nozzle relative to the housing so as to be able to move the air flush (6) with respect to the mounting assembly (1) . 25 2. Dispensing device according to claim 1, wherein the connecting piece (7; 7 ') is rigid and is connected to the flush (6) rigidly so that the tip defines an axis positioning device (Z) for hunting (6). i0 20It 3. A dispensing device according to claim 1 or 2, wherein the tip (7; 7 ') is rotatably mounted in the housing (47; 47'; 47 "). 4. A dispensing device according to claim 1, 2 or 3, wherein the endpiece (7) comprises an end section (72) defining a connection axis (Y), this section (72) being engaged in the housing ( 47, 47 ") rotatably on itself about the axis (Y). 5. Dispensing device according to claim 4, wherein the tip (7) comprises an initial section (73) which does not extend in alignment with the connection axis (Y), so that rotation of the end section (72) in the housing (47; 47 ") causes displacement of the initial section (73), and hence of the air flush (6). 6. Dispensing device according to claim 4 or 5, wherein the air duct (41) is aligned with the connection axis (Y). 7. A dispensing device according to claim 4 or 5, wherein the air duct (41) is at an angle to the connection axis (Y). 8. A dispensing device according to any one of claims 4 to 7, wherein the housing (47; 47 ") forms an axial guide sleeve (48) for the tip (7). 9. Dispensing device according to claim 1, 2 or 3, wherein the tip (7 ') comprises a ball head (74) engaged in the housing (47'), the air passage (71). through the ball head (74), the tip (7 ') being pivotally movable about its head derotule (74) while maintaining communication between the passage (71) and the conduit (41). 10. A dispensing device according to any one of the preceding claims, wherein the communication between the air passage (71) and the air duct (41) is interrupted in a particular relative position of the mouthpiece (7). ) relative to the housing (47).