FR3008902A1 - DEVICE FOR DELIVERING A PRODUCT BY SPRAYING - Google Patents

Abstract

The present invention relates to a device for delivering a product by spraying, comprising a first channel (10) for circulating the product to an outlet (25) of the first channel and a second channel (6) for circulating a gas intended to producing a vacuum at the outlet (25) of the first channel (10) for suctioning the product by the Venturi effect, characterized in that the first channel (10) and the second channel (6) have parallel mean directions at the level of the output of the first channel (10). The invention will particularly find application in the field of the delivery of products in the form of powders, especially for cosmetic use or medical or veterinary.

Description

The present invention relates to a device for delivering a product by spraying and a sprayer equipped with this device. The invention will particularly find application in the field of the delivery of products in the form of powders, especially for cosmetic use or medical or veterinary. In this field, the publication FR-A-2 918 999 discloses a distributor of pulverulent products employing the technique of the Venturi effect so as to produce, by the application of a jet of air under pressure, a low pressure effect at level of a mouth of a powder product outlet channel to be delivered. The operator presses on the outer surface of a deformable pear so as to create the low-pressure airflow. The applicant has found that this type of sprayer is not free of drawbacks especially as regards the efficiency of the projection. More specifically, a relatively large support on the pear allows only a relatively small delivery of powdery product. It is an object of the invention to remedy all or part of the disadvantages of the techniques known hitherto. For this purpose, according to a first aspect of embodiments, the invention provides a device for delivering a product by spraying, comprising a first product circulation channel to an outlet of the first channel and a second circulation channel of a gas intended to produce a vacuum at the outlet of the first channel for suctioning the product by the Venturi effect. Advantageously, this device is characterized in that the first channel and the second channel have parallel mean directions at the output of the first channel. In other words, at the outlet of the first channel, the flows of gas (usually air) and product (such as a powder) follow parallel mean directions. This makes it possible in particular to limit the effects of turbulence at the outlet mouth, turbulence likely to create powder return effects to the interior of the device and limiting the effectiveness of the projection. Indeed, the depression effect is generally reduced by the turbulence as the final projection speed.

Another aspect of the invention relates to a sprayer comprising a container adapted to receive a product to be sprayed, a device and a cannula dipping into the container and connected to the first channel. The invention is also related to a spraying process. The invention finally relates to the use of a sprayer for spraying a product in powder form.

The accompanying drawings are given by way of example and are not limiting of the invention. They represent only one embodiment of the invention and will make it easy to understand. Figure 1 is a side view of the device of the invention and Figure 2 illustrates a longitudinal sectional view. Figure 3 is a view of the rear face of a device of the invention. Figure 4 shows a perspective view. Figure 5 shows a longitudinal sectional view taken in perspective. Figure 6 is a longitudinal sectional view of a portion of the device of the invention. Before going into the details of embodiments of the invention more particularly with reference to the drawings, hereinafter set forth various options that can present the invention individually or in any combination between them. - the average directions are confused; the first channel is defined by the internal wall of a duct surrounded by the second channel; - The first channel has a circular cross section and the second channel has an annular cross section - the second channel is defined by the outer wall of the duct on the one hand and the inner wall of a body enclosing the duct; the duct comprises a zone of longitudinal section of degressive conical shape in the direction of the outlet; - The cross section of the second channel is degressive towards the exit; the second channel comprises an area whose longitudinal section is of degressive conical shape in the direction of the exit; said zone continues downstream of the exit; the device comprises a membrane configured to obstruct the second channel in a first position and to open the second channel in a second position; - The membrane is configured to move from the first position to the second position under the exercise of a gas pressure of a value greater than a predefined threshold upstream of the membrane; - It comprises a plate extending between the outer wall of the conduit to the inner wall of the body and configured to be applied on an upstream face of the membrane, the plate having at least one gas passage opening; - The body has on its inner wall, a stop configured to receive a support surface downstream of a peripheral zone of the membrane; - The inner wall has a threaded portion upstream of the stop. The present invention also relates to a sprayer in which the container comprises at least one flexible wall portion configured to apply an overpressure to the container during a user's support on said portion and the use of said sprayer for spraying a product in powder form. The various figures show a device for delivering a product by spraying. A preferred but non-limiting application is the spraying of powdery products such as powders, for example for cosmetic or medical use. The device of the invention is adapted to be attached to a container 26 so as to load the device product to be delivered. In general, the container may be of any material and for example plastic. The device and the container 26 are advantageously connected for product circulation by a cannula such as a hollow rod immersed in the container with a distal end located near a bottom portion of the container and a proximal end connected to the delivery device by a first channel 10 described hereinafter in more detail. The invention makes no assumption about the material of the container 26 which may for example be plastic. Nevertheless, a potential advantage of the invention is to be able to exploit the deformability of at least a portion of the container wall 26 so as to produce the flow of the low-pressure gas. More particularly, the device of the invention allows in particular in the embodiment illustrated in the drawings to exploit the air contained in the container 26, in particular above the stored powder and to operate a pressure on the wall of the container. containing 26 so as to expel the air and create the Venturi depression effect. For this purpose, at least a portion of the wall of the container 26 is advantageously elastically deformable so that a user can operate a pressure to reduce the interior volume of the container 26 and so that the container 26 returns to its original shape when the user puts an end to his pressure effort. By way of example, it is possible to use a container 26 whose side wall is made of flexible and slightly curved plastic material, the configuration of the container 26 being arranged so that a flexion on the wall of the container 26 produces the depression effect, this flexion being elastically reversible.

The embodiment of the invention is therefore particularly suitable for this type of low pressure gas flow generation. It should be noted in this respect in FIG. 2 that all the components of the device of the invention can be integrated into a body 4 whose external appearance is notably visible in FIGS. 1 and 4, it will generally be a body plastic material having a first end constituting a connecting zone 17 adapted to be attached to the container 26 and another end constituting a mouth 15 at which the product to be delivered is evacuated. For example, the connection zone 17 may comprise a threading 16 so as to cooperate with the neck of a container itself equipped with threads corresponding to the level of the mouth 15. The invention makes no assumption on its configuration. In the example considered, the mouth 15 is a distal opening of the body 4, slightly flared with respect to a previous portion of the discharge channel of the product and also in the example inclined relative to an axis 11 constituting the longitudinal direction the device. For example, it is possible to deliver a product obliquely when the device is located vertically, that is to say that the axis 11 is directed substantially in the vertical direction. Inside the body 4, there is preferentially in the first place a first channel 10 whose function is to bring the product to the portion of the device located in the region of the mouth 15. More specifically, the first channel 10 is terminates with an outlet 25, outlet defining, immediately in its downstream part, a zone 24 of confluence between the product flow sucked and the flow of gas allowing depression. Generally speaking, in the present description, the term "upstream" is understood to mean a portion of the device located generally further back relative to the direction of flow of the powder and the low-pressure gas. Similarly downstream means a part of the device located substantially further forward in the direction of flow of the product to be delivered and the low pressure gas. Advantageously, the first channel 10 is placed longitudinally along the axis 11. This first channel 10 may be defined by the internal surface of a duct 1, for example in the form of a tube, for example a plastic tube, directed along the axis . An upstream end of the duct 1 can cooperate, integrally or reported, with a cannula constituting the dipping element in the container so as to provide the product supply. A simple fitting can suffice in the case where the cannula is attached to the upstream end of the conduit 1. Preferably, the conduit 1 has a first portion from its upstream end to the outlet 25 in cylindrical form so as to delimit a first channel 10 of constant circular section on a first portion of the duct 1. An example of cylindrical portion 8 is illustrated in Figure 2. Then, advantageously, the duct 1 comprises a conical portion 9 from a circular section equivalent to that of the cylindrical portion 8 towards a circular section of smaller diameter towards the exit 25.

As a result, the first channel 10 adopts in this section a degressive section favoring the increase of the powder speed in the first channel 10. Without limitation, the first channel 10 then comprises an end portion of cylindrical section up to the end at which the outlet 25 is located. In order to achieve the Venturi effect, the device of the invention is also configured to circulate a gas under pressure capable of sucking the product circulating inside. of the first channel 10. For this purpose, advantageously, the device comprises a second channel 6, an example of which is also presented in FIG. 2. In general, it is advantageous for the second channel 6 to perform at the level of the zone confluence 24, a flow whose average direction is equivalent to that of the mean direction of the flow of the product. In the case shown, it is arranged that the assembly has a direction in the confluence zone 24, parallel and advantageously coincides with the axis 11. To achieve this, Figure 2 illustrates an example in which the second channel 6 is made symmetrically about the axis 11. In this case, the second channel 6 is defined in an inner part by the outer wall 7 of the first duct 1 on the one hand. On the other hand, in its outer part, the second channel 6 is defined by the inner wall 5 of the body 4. The body 4 also advantageously comprises a cylindrical portion 12 located substantially further upstream of a conical portion 13 of the body 4 which is directed towards the front of the device in the direction of the mouth 15. Thus, similarly to the first channel 10, the second channel 6 has a first part in which the flow takes place in a substantially cylindrical section and a second part for which the section is conical. The conical section of the portion 13 advantageously has a base diameter equivalent to that of the cylindrical portion 12 and a final diameter, in the example slightly beyond the outlet 25, of a substantially larger diameter (for example between 1, 5 and 2 times the diameter of the first channel 10 at the outlet 25). It is understood that the second channel 6 surrounds the first channel 10 while following a substantially similar configuration, namely a first wider section and then a degression of the section so as to accelerate the flow in a conical portion up to the area of confluence 24. The assembly is advantageously symmetrical around the axis 11 so that the first channel 10 and the second channel 6 are centered on one another. The first channel 10 being of circular section, the second channel 6 is then of annular section. The second channel 6 is arranged to be in communication with the interior volume of the container. For this purpose, the connection by the zone 17 of the device on the container produces this setting in continuity. It is understood that a depression operated on the container will produce a flow of air entering from the connection zone 17 to the second channel 6 to the mouth 15. Advantageously, the conduit 1 is held in position relative to the body 4 via a plate 2, for example in the form of a substantially circular section piece extending from the outer wall 7 of the duct 1 to the inner wall 5 of the body 4. At this level, the plate 2 can be held in position by abutment on a stop 18 made on the body 4. More specifically, in a step of connecting the container, the upper surface of the neck of the container can be applied to a first peripheral surface of the plate 2 while this surface peripheral device is counter-supported by the abutment 18. The abutment 18 can be achieved by a narrowing zone, for example at the bottom of threads 16. A particularly visible seal 19 in FIG. put to ensure the peripheral sealing so that the entire air flow is directed towards the interior of the body 4 without loss at the threads 16. The plate 2 has one or more openings 3 allowing the passage of the 'air. Of course, any other tray configuration or any other type of frame or fastening means capable of holding the conduit in position inside the body 4 is feasible without departing from the scope of the invention. However, the illustrated embodiment has the advantage of being able to cooperate with a membrane 20 described hereinafter in more detail. Indeed, it is understood that during a pressure of the user, the air is quickly brought to the confluence zone 24 where the Venturi effect takes place. However, such an arrangement is highly dependent on the mode of support of the user for example, the pressures of the user can vary in intensity and speed which produces different product outputs. This can be detrimental to the operation and in particular to the repeatability of the product delivery, for example in a given quantity. To remedy this drawback, a membrane 20 is advantageously positioned in the device so as to perform a valve function. The membrane 20 has a first position in which it closes the passage of air from the connection zone 17 to the second channel 6. In this situation, it is understood that the interior volume is kept tight and that the device thus avoids the untimely entries eg moisture. Furthermore, the second channel 6 is closed, that is to say that no Venturi effect occurs in this closed position. The membrane 20 is also configured to be able to adopt a second position in which it is deformed so as to open one or more of the openings 3 made in the plate 2. This second position is taken by the membrane 20 advantageously by elastic deformation of its material . FIGS. 5 and 6 show in greater detail an example of forms that can be used for the membrane 20. In the case of FIG. 6, it is noted that the membrane 20 comprises a peripheral zone 21 that can be held in position at the zone device of the tray 2, for example by fitting through the abutment 18, similarly to what has been indicated before. Going more inwardly of the membrane 20, the latter comprises a wall, of advantageously degressive section, constituting a movable zone 22 ending up to a hole 23. This hole 23 is configured to be applied close to the outer wall 7 of the duct 1 as shown in Figure 5. In general, the movable zone 22 is configured to cover all the openings 3 when the device is in the closed position. On the other hand, when the membrane 20 is deformed, the part 22 undergoes a movement, directed towards the downstream part of the device, and making it possible to open at least partially the opening 3. For example, it is possible to use an elastically deformable wall 22 of the type elastomeric material or natural rubber. This case is not limiting, however, and other mobility arrangements can be used for the wall 22. In particular, the membrane 20 could comprise a peripheral portion 21 connected to the wall 22 by mechanical articulation means comprising means for return to the closed position. By way of example, the thickness of the peripheral wall 21 may be of the order of one millimeter and that of the distal portion of the wall 22 may be of the order of one to three tenths of a millimeter. In addition, as shown, the wall 22 may be slightly directed forwards (towards the downstream portion of the device) towards the hole 23. The plate 2 is advantageously configured in a similar manner. There is therefore preferably an inclination so that the plate 2 and the membrane 20 are inclined downstream of the device by approaching the axis 11. This provision promotes a rapidly reversible bending deformation for the membrane 20. It will be understood that on the one hand the membrane can achieve an airtight closure of the device in the unused position. In addition, the membrane 20 is a member whose application force on the plate 2 can be overcome by the air pressure administered by the user for the device to operate. Thus, the present invention puts into practice a threshold effect, a threshold that must be exceeded in order for the delivery of the product to take place. In this way, it is understood that pressures that are too light and inefficient for the user will have no effect. On the other hand, as soon as the predetermined threshold is exceeded, the effective delivery of the product will be achieved. In use the device is connected to the container 26, for example via the threading 16. During this step, simultaneously, the assembly consisting of the seal 19, the plate 2 and the membrane 20 is fixed in position by resting on the abutment 18. Then, when exerting sufficient pressure on a deformable part of the wall of the container 26, the user produces a pressure allowing the deformation of the mobile part of the membrane 20 and the admission a flow of air inside the second channel 6. This flow is accelerated by the conical portion of the second channel 6 to the area where the product outlet is located at which the air flows and of product are in confluence. At this level, the air flow coming from the second channel 6 produces a suction so as to promote the rise of the product inside the first channel 10. The mixture of air and product formed in the confluence zone 24 is then discharged through the mouth 15. A distal cylindrical portion 14 may be disposed between the mouth 15 and the confluence zone 24 so as to stabilize the flow before its change of direction. It will be noted that the invention implements few parts and that the assembly is facilitated by the fact that one exploits parts that can be joined together and to the container in a single step. In addition, as shown in Figure 3, the assembly is advantageously symmetrical around the axis 11 so that the manufacture is also facilitated. Despite this symmetry, the product can be projected in a direction different from the axis 11, for example by an oblique mouth revealed in particular in Figure 4.

Claims (17)

REVENDICATIONS1. Device for dispensing a product by spraying, comprising a first channel (10) for circulating the product to an outlet (25) of the first channel and a second channel (6) for circulating a gas intended to produce a vacuum at the outlet (25) of the first channel (10) for suctioning the product by Venturi effect, characterized in that the first channel (10) and the second channel (6) have parallel mean directions at the outlet of the first channel (10). 2. Device according to the preceding claim wherein the average directions are combined 3. Device according to one of the preceding claims wherein the first channel (10) is defined by the inner wall of a duct (1) surrounded by the second channel (6). 4. Device according to the preceding claim wherein the first channel (10) has a circular cross section and the second channel (6) has an annular cross section. 5. Device according to one of two preceding claims wherein the second channel is defined by the outer wall (7) of the duct (1) on the one hand and by the inner wall (5) of a body (4) enclosing the leads (1). 6. Device according to one of the three preceding claims wherein the duct (1) comprises a conical section of longitudinal section degressive section towards the outlet (25). 7. Device according to one of the preceding claims wherein the cross section of the second channel (6) is degressive towards the outlet (25). 8. Device according to the preceding claim wherein wherein the second channel (6) comprises a zone whose longitudinal section is degressive conical in the direction of the outlet (25). 9. Device according to the preceding claim wherein said zone continues downstream of the outlet (25). 10. Device according to one of the preceding claims comprising a membrane (20) configured to obstruct the second channel (6) in a first position and to open the second channel (6) in a second position. 11. Device according to the preceding claim wherein the membrane (20) is configured to pass from the first position to the second position under the exertion of a gas pressure of a value greater than a predefined threshold upstream of the membrane ( 20). 12. Device according to one of claims 10 and 11 in combination with claim 5, comprising a plate (2) extending between the outer wall (7) of the conduit (1) to the inner wall (5) of the body ( 4) and configured to apply on an upstream face of the membrane (20), the plate (2) having at least one gas passage opening. 13. Device according to the preceding claim wherein wherein the body (4) has on its inner wall (5), a stop (18) configured to receive in abutment a downstream surface of a peripheral zone (21) of the membrane ( 20). 14. Device according to the preceding claim wherein the inner wall (5) has a threaded portion upstream of the stop (18). 15. Sprayer comprising a container adapted to receive a product to be sprayed, a device according to one of the preceding claims and a cannula dipping into the container (26) and connected to the first channel (10). 16. Sprayer according to the preceding claim wherein the container (26) comprises at least one flexible wall portion configured to apply an overpressure to the container during a support of a user on said portion. 17. Use of a sprayer according to one of the two preceding claims for spraying a product in powder form.