The invention relates to a cup/valve assembly for an aerosol container made up of a cup, a valve body, a stem, a spring, an inner seal, and means for retaining the stem in the valve body. The cup has at its center an opening through which the stem protrudes. The stem comprises a bulge on its outer cylindrical face and an inner conduit having an upper opening at its upper end and at least one lateral orifice at its lower end, the lateral orifice or orifices being placed between the bulge and the upper opening of the inner conduit. The valve body has a cylindrical portion provided with an opening at its upper end defining a top edge. The invention also relates to a method for manufacturing such a cup/valve assembly.
Cup/valve assemblies as described in the preamble are well known. They are generally constituted by an aluminum cup which is set by flaring on the upper crown of a valve body so as to enclose a portion of the stem in the valve body. These assemblies are commonly used and pose the problem of recycling used aerosols. Indeed, the stem and the valve body are generally plastic, while the cup and the spring are metallic.
The objective of the invention is to simplify the recycling of such cup/valve assemblies. Another objective is to simplify their manufacture.
These objectives are achieved according to the invention in that:
To prevent the retaining ring from protruding above the cup, preferably, said ring is placed in a recess provided on the upper face of the cup and that surrounds the opening. The height of the recess and that of the retaining ring can be selected so that, after fixation of the latter, its upper face is flush with the upper face of the cup or is set back from it. The bottom of the recess preferably forms a radial annular surface against which the retaining ring comes to bear.
To facilitate assembly of the cup/valve assembly, it is preferable to provide means for centering the retaining ring relative to the cup. These centering means can be constituted by a crown placed on the face of the retaining ring oriented toward the cup, preferably at its periphery. This crown is dimensioned to penetrate into a recess located on the cup and surrounding and/or surmounting the opening, preferably into a groove formed in the bottom of a recess. In order to facilitate the centering, preferably, the recess widens in the direction of the retaining ring, at least in its upper portion. In addition to or instead of a widening of the recess, it can also be provided that the crown narrows in the direction of the cup, at least in its lower portion. The bottom of the recess can form a radial annular surface against which the crown of the retaining ring bears. An extra thickness of material can be provided on the crown of the retaining ring or in the groove of the cup to serve as a weld seam.
In a first embodiment, the means for fixing the valve body to the opening of the cup are constituted by bridges placed between the outer face of the cylindrical portion of the valve body and the opening of the cup, said means for fixing the valve body being designed so that the top edge of the cylindrical portion of the valve body is located lower than the interface between the retaining ring and the cup at the level of the opening of the cup.
In another variant, the means for fixing the valve body to the opening of the cup are constituted by snapping means for snapping the valve body on the cup, the snapping means being designed so that the top edge of the cylindrical portion of the valve body is located lower than the interface between the retaining ring and the cup at the level of the opening of the cup. In both variants, if the retaining ring is fixed in a recess, the top edge is located lower than the bottom of the recess at the level of the opening of the cup.
A simple solution for fixing the retaining ring is to weld it onto the cup. For this purpose, an extra thickness of material can be provided on the retaining ring or on the cup to serve as a weld seam. The retaining ring can be provided with a crown on its lower face, preferably at its periphery, and the recess can be provided with an annular groove having dimensions corresponding to those of the crown of the retaining ring, wherein an extra thickness of material can be provided on the crown of the retaining ring or in the groove of the cup to serve as a weld seam.
In order to attach a dip tube, a metering reservoir, anti-sagging means or any other similar device, it may be useful to provide the valve body with a tube placed in the extension of the cylindrical portion, opposite the upper opening, a passage opening being provided to put in contact the inside of the tube and the inside of the cylindrical portion.
A pouch can be fixed on the valve body. Similarly, the cup can be provided with means for fixing it on the neck of a housing in order to form an aerosol container.
In order to allow easy recycling of the cup/valve assembly, the cup, the valve body, the stem and/or the retaining ring can be made in a thermoplastic material, and the spring in stainless steel or a thermoplastic material.
The invention also relates to a process for manufacturing a cup/valve assembly according to the invention. This process comprises the following steps:
the order of steps (a) to (e) not being fixed, except that step (d) is performed after step (c).
To simplify the process, it will be possible to provide:
Similarly, it is preferable, in step (e), to mold together as a single piece the stem and the retaining ring, the retaining ring being connected to the stem by bridges that can break easily, the retaining ring being located between the orifices and the upper opening of the inner conduit.
Finally, it is preferable, in step (g), to fix the retaining ring on the cup by welding, and further, an extra thickness of material can be provided on the retaining ring or on the cup to serve as a weld seam.
The invention is explained in more detail below with the help of the following Figures:
The valve of the invention is intended to be made entirely in plastic in order to allow easier recycling of the aerosol container after use. It is self-evident that some parts may however be made in another material, for example, metal.
The invention relates to a cup/valve assembly (1) made up, as shown in
These parts all have a certain symmetry of rotation about an axis (A) passing through the center of the stem (4) and marked schematically in
The cup unit (11) combines in a single piece the cup (2) and the valve body (3). It would of course be possible to produce this unit in the form of two separate parts assembled together by any appropriate means, for example, by snapping. The cup conventionally comprises a peripheral edge (21) to attach it to the neck of a housing (6) after interposition, if appropriate, of an outer seal (22). The lower face of the cup can be provided with reinforcing ribs (25).
The cup has in its center an opening (23) that is surrounded, on the upper face of the cup, by a recess (24) concentric with the opening (23). In the embodiment shown here, the bottom of the recess has an annular groove (241).
The valve body (3) is fixed to the cup in the area of the opening (23). It is constituted essentially by a cylindrical element (31) open at the top and closed at the bottom by a radial partition wall (32). The cylindrical element is extended by a tube (33) fixed to the radial wall. An opening (34) is provided in the radial wall to put in contact the inside of the cylinder and the conduit located inside the tube. L-shaped radial ribs (35) are placed in the bottom of the cylindrical element (31). The vertical branches of the L serve to guide the spring (14) while the horizontal branches serve to support it. The horizontal branches of the L do not touch one another. In the example presented, they stop at a distance from the orifice (34). The cylindrical element (31) is connected to the cup (2) by bridges (36) made in the upper portion of its outer face. These bridges are distributed regularly over the periphery of the cylindrical element and form crenellations projecting radially outwards and upwards. The upper portions of these bridges are connected to the wall of the opening (23). On its top edge, the cylindrical element (31) has an annular rib (37) in order to ensure sealing with the inner seal (13). The top of the annular rib (37) is located lower than the bottom of the recess (24) at the level of the opening (23). It is possible, however, to provide that the bottom of the recess in the area of the annular groove (241) is at the same level, or even lower, than the top of the annular rib (37). It would also be possible to replace the bridges (36) by a continuous attachment.
The stem unit (12) is constituted by a stem (4) and a retaining ring (5). To simplify manufacture and assembly, it is preferable to provide that the stem unit is made as a single piece. For this purpose, the retaining ring and the stem are molded together and connected by a few weak bridges (51) that break easily during assembly. It would of course be possible to manufacture the two elements separately.
The stem (4), as the rod is called, is constituted by a tubular element separated at its center by a radial wall (41) forming an upper conduit (42) and a lower conduit (43). One or several orifices (44) are made in the bottom of the upper conduit, near the radial wall (41), in order to put the inside of this upper conduit in contact with the cylindrical outer face of the stem. An annular bulge (45) is formed on the cylindrical outer face of the stem, below the orifices (44). This bulge (45) is flattened on the side of the orifices (44) so as to form a radial bearing surface (46). In the example presented here, the bulge (45) is in the extension of the partition wall (41). The lower conduit (43) has no function, and the portion of the tubular element located below the radial partition (41) could be full. It serves as guiding tenon in the spring (14). An annular shoulder (47) is formed in the tenon, which, in the mounted state, acts as a stop for the spring.
The retaining ring (5) has the shape of a round plate pierced at its center so as to form a passage (52). The outer diameter of the retaining ring is slightly smaller than the diameter of the recess (24), and in any case greater than the diameter of the opening (23). The diameter of the passage (52) is slightly greater than the outside diameter of the wall of the upper conduit (42) of the stem. On its lower face, an extra thickness of material (53) having an annular shape can be placed to serve as a weld seam during assembly. In the example presented here, the weld seam is placed on a crown (54) placed at the periphery of the lower face of the retaining ring. This ring penetrates into the annular groove (241) formed in the recess (24) of the cup. The crown can serve as centering means for centering the retaining ring as it is moved in the direction of the cup during assembly. If the retaining ring is not provided with such a crown, it is not necessary to provide an annular groove in the recess. The bridges (51) that connect the stem and the retaining ring before assembly are located between the orifices (44) and the top of the stem, for example, about halfway.
The inner seal (13) is an annular flat seal whose outer diameter is slightly smaller than or equal to the diameter of the opening (23) at the junction between the cup and the valve body, and greater than the diameter of the annular rib (37) at the top of the valve body. Its inner diameter is equal to or slightly smaller than the diameter of the stem at the orifices (44).
When assembling the cup/valve assembly, a spring (14) is introduced into the valve body (3) so that it is located in the space defined by the vertical branches of the ribs (35), bearing on the horizontal branches of these ribs. In parallel, the inner seal (13) is slid over the lower portion of the stem serving as tenon until it has passed over the bulge (45). For this purpose, the lower face of the bulge is inclined to facilitate the passage of the seal. The latter is then located between the bulge (45) and the retaining ring (5) which is still fixed to the upper portion of the stem. The stem/retaining ring unit provided with the seal is then introduced into the valve body until the lower portion of the stem penetrates into the spring and the upper end of the spring comes into contact with the annular shoulder (47) of the lower portion of the stem. This situation is shown in
The retaining ring is then pushed down and the bridges (51) which connected it to the stem (4) break. The ring is brought into contact with the cup. It takes position in the recess (24) with its extra thickness of material (53) bearing against the annular radial surface forming the bottom of the recess (24), as the case may be, in the annular groove (241) when there is one as is the case in this example. While moving down, the retaining ring pushes the seal (13) downwards so that it comes to be pressed against the annular rib (37) formed on the top edge of the cylindrical element (31) of the valve body. The seal is thus wedged between the lower face of the retaining ring and, firstly, the radial bearing surface (46) of the bulge, and secondly, the annular rib (37) of the valve body. It is then possible to weld the retaining ring on the cup, for example, by ultrasound. This is the situation shown in
When the retaining ring (5) is provided with an annular ring (54) that penetrates into a groove (214) of the recess (24), preferably, the lateral wall or walls of this recess are slightly inclined relative to the vertical, at least in their upper portions, so that the recess widens toward the top, at least in its upper portion. Thus, when the retaining ring (5) is lowered toward the cup during assembly, its crown is guided into the recess (24) by the inclined side wall or walls, even if the retaining ring is not exactly coaxial with the recess (24). It would also be possible to incline the side wall or walls of the annular crown (54) in addition to or instead of the inclination of the lateral wall or walls of the recess (24), so that the crown would be narrower at its free end oriented toward the cup (2) than at its base attached to the plate of the retaining ring. In the example presented here, the recess (24) is essentially constituted by an upper portion intended to receive the main plate of the retaining ring (5) and delimited by an outer lateral wall, and further, by a lower portion constituted by the groove (241) intended to receive the crown (54) of the retaining ring and delimited by two lateral walls and a bottom wall, the outer lateral wall of the groove being in the extension of the lateral wall of the upper portion in this case. The lateral wall of the upper portion of the recess (24) is slightly inclined relative to the vertical so that the recess widens toward the top, as is clearly visible in
A flexible pouch could be attached to the valve body (3) to form a valve/pouch assembly. For this purpose, two opposite fins can be provided on the valve body to facilitate welding of the pouch. Due to the pressing of the seal at the annular rib (37) at the top of the valve body, the inside of the valve body is isolated from the space surrounding the valve body, that is to say, the space located between the housing and the flexible pouch.
The various elements are preferably made in a plastic material. For example, a thermoplastic material can be selected for the cup unit and for the stem unit and stainless steel or a thermoplastic material for the spring. The housing must be in a material compatible with that of the cup if the cup/valve assembly is to be welded on it. For example, PET can be selected.
The advantage of the cup/valve assembly of the invention is that all the parts can be made in plastic, including the spring, which facilitates the recycling of the aerosol container after use. Moreover, by molding as a single piece, firstly, the cup unit, and secondly, the stem unit, the number of pieces is considerably reduced, which makes it possible to save space during storage and to reduce assembly costs.
Number | Date | Country | Kind |
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1555497 | Jun 2015 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/063537 | 6/13/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/202754 | 12/22/2016 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
20080093393 | Kim | Apr 2008 | A1 |
20110101036 | Wanbaugh | May 2011 | A1 |
20150197392 | Franz | Jul 2015 | A1 |
20160152404 | Hawthorne | Jun 2016 | A1 |
Number | Date | Country |
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0 484 714 | May 1992 | EP |
2 216 267 | Aug 2010 | EP |
2 508 136 | Dec 1982 | FR |
Entry |
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International Search Report and Written Opinion dated Jul. 18, 2016 issued in corresponding application No. PCT/EP2016/063537; w/ English partial translation and partial machine translation (21 pages). |
International Preliminary Report on Patentability dated Dec. 19, 2017 in corresponding application No. PCT/EP2016/063537; w/ English translation (13 pages). |
Number | Date | Country | |
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20180134481 A1 | May 2018 | US |