FR2591331A1 - Device for dispensing metered portions of a product contained in a pressurised receptacle - Google Patents

Abstract

The dispenser according to the invention comprises a piston 5 sliding in a bore 4 with one face subjected to the pressure of the tank coming from the pipe 11 and one face turned towards a chamber 4a set in communication selectively with the pipe 11 and with the atmosphere by manual action on a slide valve 7 whose length determines the volume of the dose delivered.

Description

 Most metering valves, making it possible to deliver a predetermined quantity of a liquid or pasty product contained in a pressure vessel, use an elastic membrane which constitutes the movable wall of a capacity whose internal volume is placed in communication with a distribution channel or with the inside of the container.

 The elastic membrane can be housed inside the container, one of its faces being constantly subjected to the pressure of the latter. When the capacity is placed in communication with the outside, for the distribution of the dose, a pressure differential is created between the two faces of the membrane which leads the latter to deform by reducing the volume of the capacity and causing the expulsion of the product there. The closing of the distribution channel is accompanied by the communication of the capacity with the interior volume of the container which re-establishes a pressure in the capacity equal to that of the container. The membrane then being under pressure returns to its original shape under the effect of its own elasticity.

 The elastic membrane can also be placed outside the container, in a fixed volume chamber.

By acting on a valve, a communication is created between the container and part of the chamber located on one side of this membrane. The pressurized fluid "swells" The membrane that comes under the effect of the pressure is pressed against the walls of the tank. Closing the valve leads to a communication of the "inflated" capacity with the outside and the fuid which it contains is expelled in the distribution channel under the effect of the own elasticity of the membrane.

 The main drawbacks of these systems lie in the very use of a membrane. Indeed, the ability to deform elastically of a membrane varies over time so that there is a difference between the theoretical dose and that actually delivered, especially if the storage time of the container has been long. In addition, for the same container, the elastic characteristics of the membrane may vary with use and the doses undergo a slight drift. Finally, the elastic membranes are not always suitable for the products to be dispensed which may have a corrosive nature reacting with the elastomer of the membrane. It will also be noted that, and especially for metering devices of the second type, the ejection energy of the dose varies between the start and the end of the distribution. We note that at the end of distribution, the product is not more propelled with sufficient energy and that it flows along the walls of the container, which constitutes on the one hand a loss of product compared to the planned dose and, on the other hand, a stain of the container and the hand of the manipulator.

 The present invention intends to remedy these drawbacks by proposing a device for dispensing a product in the form of successive metered fractions not employing membranes but a mobile wall. Rigid in a metering capacity. This wall is in the form of a piston sliding in a cylinder and the entire device is of relatively smaller external diameter than existing membrane devices allowing easy fitting at the neck of each container, by crimping or the like. , through the opening of coL. This device can also be produced rationally, for several dose volumes, the parts specific to each volume being reduced in number, the others being identical whatever the dose to be delivered. Finally, the device according to the he invention can be made of many materials (plastics or metals) the choice of material being made according to the composition and the nature of the product to be distributed.

More specifically, the subject of the invention is a device for delivering metered fractions of a liquid or pasty product contained in a pressurized container, forming a valve for distributing said container, placed at the neck of the latter, comprising at least one dosage which has a wall movable between two positions, the volume swept by the wall between these two positions being equal to at least a fraction of the dose to be delivered and by a manually actuated dispenser, allowing selective communication between the chamber and the inside of the container
The insulation of the external atmosphere and a communication between the chamber and the external atmosphere by isolating it from the container, said wall being subjected, at least when the chamber is in communication with the external atmosphere, to the internal pressure of the container by its face opposite to that facing the chamber.

 According to one of the characteristics of the invention, the above-mentioned chamber is produced in a cylindrical envelope disposed inside the container and fixed to the neck of the latter to form a definitive closure member, while the above-mentioned movable wall is constituted by a piston slidably mounted in the cylindrical casing between the two aforementioned positions.

 In a first embodiment, the aforementioned distributor is a distributor with a sliding drawer in a direction parallel to the axis of the casing and one end of which constitutes a manual actuation button for the valve.

 The end of the drawer opposite said button extends inside the chamber and constitutes a stop for the piston. By this arrangement, it is easy to determine the stroke of the piston, and therefore the dose to be delivered. Thus, the longer the drawer, the smaller the stroke. We can therefore manufacture a range of devices in which each of them corresponds to a different dose to be delivered, while having a rational manufacturing, The only part changing from one device to another is the drawer more or less long depending on the dose to be obtained.

 In this embodiment a return spring is arranged inside the chamber; its effect tends to return the piston to its position where the volume of the chamber is maximum. In addition, the dispenser drawer is subjected to the effect of an elastic return member tending to place it in its position of interruption of the communication of the chamber with the external atmosphere.

 a second embodiment of the invention consists in that the aforementioned cylindrical envelope determines with the piston two chambers, each of which being connected to a first carduit of communication with the interior of the container and to a second communication conduit with the external atmosphere, the above-mentioned drawer establishing, in a first position, the simultaneous opening of the first conduit of one of the chambers and of the second conduit of the other chamber, the other conduits being kept closed, and in a second position the opening of the second conduit of one of the chambers and of the first conduit of the other chamber, the other conduits being kept closed.

 By this embodiment, the dispensed dose consists of two half-doses, one being obtained in a first position of the drawer, the other being delivered when the drawer returns to its initial position.

 It will be advantageous if the second conduit of each of the chambers has a common end section formed in the dispenser drawer.

 In addition, the end of the drawer opposite the actuation button has a pushing surface subjected to the pressure of the container, the effect of which tends to oppose at least the maintenance of the manual actuation effort. In an alternative embodiment, this effect is permanent.

 The invention will be better understood during your description given below by way of purely indicative and nonlimiting example which will make it possible to identify the advantages and the secondary characteristics thereof.

Reference will be made to the appended drawings in which:
FIG. 1 is a schematic sectional view of a first embodiment of the invention,
- Figure 2 illustrates in section a variant of Figure 1,
FIG. 3 is a sectional view of a second embodiment of the invention,
FIG. 4 illustrates an alternative embodiment of FIG. 3,
FIG. 4A is a half-view in section along the line IV-IV of FIG. 4.

 Referring first to Figure 1 we see the neck of a closed container 1 containing a liquid or pasty product under pressure. The dispensing device according to the invention consists of a cylindrical casing 3 having a collar 3a for fixing it to the neck 1a of the container. The envelope 3 has a first bore 4 in which a piston 5 is slidably mounted. A second bore 6, coaxial with the first and open on the latter, is formed in the part 3b of the envelope located in the vicinity of the neck 1a and receives, by sliding, a dispensing drawer 7 of which one end 7a projects outside of the envelope and is conformed to a manual actuation button 8.

A spring 9 is interposed between the button 8 and an external surface of the part 3a of the envelope 3. The other end of the envelope 3 is closed by a capsule 10 which has a nozzle 10a for the connection of a tube 11 immersing in the liquid to the bottom of the reservoir 1. The internal channel of the end piece 10a communicates permanently with a conduit 12 formed in the wall of the casing 3 and with the part of the bore 4 situated below of the piston 5. The conduit 12 opens laterally into the bore 6 through an orifice 13 which can be uncovered or obscured by the drawer 7, depending on the position of the latter. A channel 14 is formed in the drawer 7 to establish communication between the bore 6, therefore the chamber 4a defined in the bore 4 by the piston 5, and a distribution duct 15 opening laterally to the outside of the container 1 fitted with the casing 3. This common cation is only established when the drawer 7 is in a determined position. A spring 16, disposed between the bottom of the chamber 4a and the piston 5, tends to bring the piston 5 back towards the capsule 10. A shoulder 17 of the bore 4 constitutes an end of travel stop for the piston 5 towards the bottom of the chamber 4a.

 In the position of the figure, the pressure prevailing in the reservoir acts on the two faces of the piston 5. The spring 16 presses ce.piston against the capsule 10. The depression of the button 8 drives 1-th drawer 7 in a position where it obscures the orifice 13 and establishes a communication, through the channel 14 between the chamber 4a and the conduit 15. The chamber 4a is in communication with the atmosphere and the pressure of the reservoir no longer applies.only on the underside 5a in the form of a bowl, of the piston 5. The spring 16 being weak, the piston rises in the bore 4 by driving out the product contained in the chamber 4a. Its course is stopped by the shoulder 17. A dose is thus dispensed. The operator releases the button 8, the spring. 9 returns the drawer 7 to its rest position that of the figure, isolating the chamber 4a from the conduit. 15 and putting it in communication with the conduit 13 which places the piston 5 in equipression. The spring 16 brings the piston 5 down.

The arrangement described above makes it possible to rapidly dispense a dose with a sudden interruption in the dispensing because the piston is suddenly stopped in its stroke. There is therefore no liquid which,. Being discharged at a low speed, runs along the length of the container 1. The volume of the dose will depend on the length of the stroke of the piston, therefore on that of the axial length of the envelope 3. We can therefore equip similar containers with capacity metering devices
different without the diametrical dimensions of the latter having varied. This characteristic has an advantage from the point of view of streamlining the final assembly of the containers.

 In Figure 2 we find some of the elements already described with the same references. Note that the spring 9 has not been shown to simplify the drawing.

It can moreover be replaced by an elastic washer of sufficient thickness so that its crushing corresponds to the stroke necessary for the drawer 7. The latter has, opposite the button 8, an extension 7b which plunges into the chamber 4a and which constitutes the end of travel stop for the piston 5. In this variant embodiment, it is seen that it suffices to set up a drawer 7 having an extension 7b of length adapted to the dose to be obtained in order to obtain a range of devices. This arrangement is an important factor in rationalizing manufacturing.

 FIG. 3 represents a second embodiment of the invention which allows distribution in two half-doses and the elimination of the elastic return members of the embodiment described above.

In this figure, the casing 3 is equipped with an internal jacket 20 dividing the tubular bore of the casing into two parts 21 and 22. The piston 5 slides in the part 22 and divides it into two chambers 22a and 22b. The drawer 7 is slidably mounted in the end parts of the casing 3, in the radial partition 20a of the jacket 20 and in the piston 5. This drawer is shaped outside of the casing in a push button 28, its other end being proven by a channel 23 in permanent communication with
The inner end channel 10a of the casing 3 which receives the tube 11. This channel 23 opens laterally from the drawer through orifices 24. The end face 25 of the drawer 27 is constantly exposed to the pressure prevailing in the container.

 The jacket 20 determines with the envelope 3 a longitudinal channel 26 into which open on the one hand, a transverse channel 29 formed in the wall 20a and ending in the sliding bearing surface of the drawer 27 and, on the other hand, a channel 30 communication channel 26 with chamber 22a. A longitudinal channel 31 connects the part 21 of the bore of the envelope to the chamber 22b.

 The drawer 27 also includes a longitudinal channel 32, one end 33 of which opens into the external atmosphere to constitute the distribution channel. This channel 33 opens at the outer surface of the drawer 27 through orifices 34 which can be obscured or discovered by the surface 35 of the sliding surface of the drawer in the end wall of the envelope 3, and through orifices 36 can be obscured or discovered by The surface of the sliding bearing surface of the drawer in the wall 20a of the jacket 20, depending on the position of the drawer 27.

 The position of the drawer 27 shown in FIG. 3 is obtained by manual depressing of the button 28. The product under pressure contained in the reservoir penetrates into the conduit 23 and through the orifices 24, in part 21 of the bore of the 'envelope. This liquid then fills the chamber 22b through the conduit 31 and pushes the piston 5 upwards. This movement is possible because the chamber 22a is, through the orifices 34, the channel 32 and the channel 33, in communication with the atmosphere, while being isolated from the reservoir because the communication of the chamber 22a with the conduit 23 is cut off at the level of the channel 29 by the drawer 27. The content of the chamber 22a is therefore expelled by the ascent of the piston 5, which corresponds to the distribution of a half-dose.

When the operator releases the button 28, the pressure of the container applied to the surface 25 causes the drawer 27 to rise to a position where the latter is held in abutment on the upper end wall of the envelope 3. In this position, the channel 23 is in communication through the orifices 24 with the channel 29, the channel 26, the orifice 30 and therefore the chamber 22a. At the same time, the part 21 is isolated from the channel 23 while the chamber 22b communicates with the outside via the openings 36 and the channel 32-33. The pressure of the container is therefore applied to the face of the piston 5 facing the chamber 22a. The piston is therefore pushed back towards the wall 20a by expelling the content of
Room 22b to the atmosphere. A second half dose is then dispensed. The drawer 27 remains alor-s in this position under the effect of the.pressure applied to its surface 25. The distribution of the next dose (by two half-doses) is obtained by a new action of the operator on the button 28.

 It can be seen that this embodiment of the invention makes it possible to use the pressure of the container as a driving agent not only for distributing the liquid, but also for restoring and maintaining the piston and drawer in their rest position.

 The dimensions of the jacket 20 and in particular the thickness of the wall 20a condition the volume of the dose to be dispensed. It is therefore possible to manufacture devices for distributing different doses from the same envelope, only the drawer and folder being specific to each dose.

 This embodiment can include numerous variant embodiments. Thus, the part 21. Of the bore can be eliminated so that only the channel 36 remains, having a return to the slide 27 to communicate with the orifices 24.

 A second variant of this embodiment is shown in Figures 4 and 4A. We see in these figures that the casing 3 is closed at its upper part by an end piece 40 having a central part 40a extending inside the casing and having a bore 41 in which is slidably mounted a drawer 47 provided with an operating button 48 outside the part 40.

 At its lower part, the envelope 3 is closed by the capsule 10, provided with its end piece 10a for connecting the tube 11. A channel 42 formed in the wall of the envelope 3 communicates permanently with the internal channel at l 'tip 10a. This channel opens at its upper part at the level of the part 40a and communicates with the bore 41 by means of the orifice 43 formed in this part. A channel 44 also formed in the wall of the cylindrical casing 3 establishes permanent communication between the bore 41 via an orifice 45 and one. channel 46 provided in. the capsule 10 to end up in a chamber 4b of the bore 4 delimited in this bore by the capsule 10 and the piston 5.

 It will also be noted, in FIG. 4A, that the other chamber 4a of the bore 4 located between the part 40a of the part 40 and the piston 5 communicates permanently with the bore 41 by a channel 49 formed in the wall of the envelope and an orifice 50 formed in the part 40a.

 The drawer 47 is for its part provided with an internal distribution channel 51 leading to the atmosphere and opening laterally into the bore 41.. by orifices 52. The drawer 47 also comprises a groove 53 in the vicinity of its end opposite the button. 48 whose width, measured along the axis of the drawer is sufficient to, in one position of the drawer, establish a communication between the chamber 4a and the orifice 43, and. In another position of the drawer, establish a communication between the orifice 43 and orifice 45 by cutting off the previous communication. Finally, the drawer 47 has an end surface 47a constantly subjected to the pressure prevailing in the chamber 4a.

 In the position of FIGS. 4 and 4A, the drawer 47 is pushed in by manual action of the user of the container. In this position, the chamber 4a is in communication with the reservoir via the conduit 11, the channel 42, the orifice 43 and the groove 53.

 Chamber 4b is in communication with the atmosphere via channel 46, channel 44, port 45, port 52 and channel 51. The piston 5 is therefore pressed under the effect of the pressure of the container , against The capsule 10 and the fluid which was in the chamber 4b was expelled.

 The operator releasing his pressure on the button 48, the pressure prevailing in the chamber 4a causes the drawer 47 to rise, which comes into abutment at the bottom of the bore 41.

In this position, the chamber 4a communicates with the outside via the channel 49, the orifice 50, the orifice 52, then located opposite the orifice 50 and the channel 51. The chamber 4b communicates with the pressure vessel via channel 42, orifice 43, groove 53, orifice 45, channel 44 and channel 46. The piston 5 is then propelled upwards and drives the contents of chamber 4a outwards.

Arrived in abutment against the part 40a, iL constitutes a locking of the drawer 47 in its rest position since the surface 47a is then no longer subjected to atmospheric pressure.

 A new action on the button 48 causes the drawer 47 to lower to its second position, with a forced displacement of the piston 5 downwards under the effect of the displacement of the drawer, and the inversion of the connections of the chambers.

 This device also allows the distribution of two half-doses.

 Obtaining a range of dispensers delivering doses of different volumes can be easily accomplished; it suffices to have drawers 47 of different lengths so that they constitute, in their rest position, a stop for the stroke of the piston 5, more or less close to the capsule 10.

 The invention finds an interesting application in the field of packaging of cosmetic or pharmaceutical products.

Claims (10)

 1. Device for delivering metered fractions of a liquid or pasty product contained in a pressurized container (1), forming a valve for distributing said container (1) placed at the neck (la) of the latter, comprising at least one chamber (4a) for metering which comprises a movable wall (5) between two positions, the volume swept by the wall between these two positions being equal to at least a fraction of the dose to be delivered and by a dispenser (7) with manual actuation, allowing to selectively establish a communication between the chamber (4a) and the interior of the container (1) by isolating it from the external atmosphere and a communication between the chamber (4a) and the external atmosphere by isolating it from the container (1), said wall (5) being subjected, at least when the chamber (4a) is in communication with the external atmosphere, to the internal pressure of the container (1) by its face opposite to that facing the chamber, characterized in that the above-mentioned chamber (4a) is produced in a a cylindrical casing (3) disposed inside the container (1) and fixed to the neck (la) of the latter to constitute a definitive closure member thereof, while the above-mentioned movable wall (5) is constituted by a mounted piston sliding in the cylindrical casing (3) between the two aforementioned positions.  2. Device according to claim 1 characterized in that the aforementioned distributor is a drawer distributor (7) sliding in a direction parallel to the axis of the envelope (3) and one end of which constitutes an actuating button (8) valve manual.  3. Device according to claim 2 characterized in that the above-mentioned drawer (7) has one end (7b) opposite to said button (8) extending inside the chamber (4a) and constituting a stop for said piston (5 ).  4. Device according to any one of the preceding claims, characterized in that a return spring (16) is arranged inside the chamber (4a) whose effect tends to bring the piston (5) back into its position where the volume of the chamber (4a) is maximum.  5. Device according to any one of the preceding claims, characterized in that the drawer (7) of the dispenser is subjected to the effect of an elastic return member (9) tending to place it in its position of interruption of the communication of the room (4a) with the outside atmosphere.  6. Device according to claim 2 characterized in that the aforementioned cylindrical casing (3) determines with the piston (5) two chambers (22a, 22b) (4a, 4b) each of them being connected to a first conduit (23 , 24,29,26,30), (23,24,21,31), (42,43,53), (42,43,53, 45, 44, 46) of communication with the interior of the container and to a second conduit (34,32,33), (36,32,33), (46,4-4,45,52,51), (49, 50, 52, 51) of communication with the atmosphere exterior, the above-mentioned drawer (27,47) establishing, in a first position The simultaneous opening of the first conduit (42,43,53), (23,24,29,26,30) of one of the rooms (22a , 4a) and of the second conduit (36,32,33), (46,44,45,52,51-) of the other chamber (22b, 4b), the other conduits being kept closed and in a second position L opening of the second conduit (34,32,33), (49,50,52,51.) of one of the chambers (22a, 4a) and of the first conduit (23,24, 21,31), (42 , 43.53, 45.44.46) of the other room, the other conduits being kept closed  7. Device according to claim 6, characterized in that the second conduit of each of the chambers has a common end section (32,33,51) formed in the dispenser drawer (27,47).  8. Device according to claim 6, or claim 7 characterized in that the other end (25,47a) of the drawer (27,47) has a pushing surface subjected to the pressure of the container whose effect tends to s oppose at least the maintenance of manual actuation effort.  9. Device according to. claim 8 characterized in that said thrust surface (25) is permanently subjected to the pressure prevailing in the container.  10. Device according to any one of claims 6 to 9 characterized in that the drawer (27,47) of the dispenser is mounted with sliding sliding in the end walls of the envelope (3) above and through the piston (5).