CA2041711C - Feeder valve actuating system - Google Patents

Abstract

This device comprises a push button (10) levering the tubular rod (3) for controlling a dispensing valve fitted to a container (1). This rod (3) defines a longitudinal axis (X-X). The push button (10) has an external face (15) comprising a zone of application of an actuating force and comprises, on the one hand, a stud (20) which abuts against the end (24) of the rod (3) and, on the other hand, support means (32) adapted to cooperate with complementary stop means (44) linked to the container. Said application area has an angular extent of at least about 180.degree. and that the support means (32) and stop (44) have an angular extent corresponding to that of said zone to determine together a support point of said lever, located in the plane passing through the longitudinal axis (XX) and the point of application of the actuating force. This device is characterized by the silence that the complementary stop (44) is part of a ring (11, 111) fixed on the container.

Description

DEVICE FOR ACTUATING A DISTRIBUTION VALVE.
The present invention relates to a device actuation of a distribution valve fitted to a container, containing a product to distribute, in particular a pressurized aerosol, the valve comprising a tubular control rod by. thrust.
It is well known to use devices of this type of which an element provided with a nipple acts as lever on the dispensing valve comprising a tubular control rod.
Thus FR-A-2 113 376 describes a device to regulate the distribution of a material, from a pressurized container provided an upper opening formed by a bowl of fitting a valve, the bowl being fixed to the opening of the container by a bead of crimp sage or rolled gasket. This device com-carries a lever in one piece provided at one end of a surface that can be engaged by an operator's finger and at the other end, a flexible clip which just clips on the bead. Between these two ends, the lever has a pin coming in stop against the end of the tubular rod valve valve. The clip and the bead part corresponding constitute the fulcrum of the lever.
By its construction, the lever pivots appreciably about an axis orthogonal to the defined longitudinal axis by the tubular rod. This construction presents disadvantages. First, the application area force has a small angular extent and it con-apply a finger to the area provided for this effect which is of modest size. In addition, the effect lever travel multiplier is limited by the construction of the device itself, because the fulcrum lever is located approximately on the bead of the container closure bowl while ~~ ~~~ 41

2 the other end preferably does not exceed the overall radial of the container for reasons and also to allow the setting in place of a cover covering the entire device and coming to be fixed on the container. So in a such device, the force to be exerted must be applied over an angularly reduced area and, moreover, it remains notable because the leverage is limited by the construction dies of the device.
GB-A-1 359 152 describes a device in which the area of force application by the user has an angular extent of 360 °, which allows the user to have a large area support and choose without constraint the point where ~ the actuation force will be exerted. In this device, the push button consists of a conical surface comprising on its axis a stud, which presses on the valve stem, a cylindrical skirt being integral with said conical surface and being provided with support means capable of cooperating, either the outside, either inside, with a stop constituted by the crimping bead of the valve bowl. According to the position of the force actuation on the application area, it forms a lever system whose fulcrum is located on the crimping bead ,. this fulcrum being located substantially in a plane passing through the axis longitudinal and the point of application of the force.
But, in this device as in that of FR-A-2 113 376, the lever multiplier effect of the lever is determined by the construction of the container itself and therefore the force to be applied remains necessarily important.
It has been proposed, to decrease the force at apply, decrease the force of the valve spring.
But in this case the long-term tightness of the valve ' 2 ~~~ 7 ~~

3 becomes insufficient.
The present invention relates to a device in which the modularity can be reduced force applied by the user to depress the valve stem, without changing the spring force of valve.
More specifically, the present invention is a device for actuating a valve distribution fitted to a container containing a pro-must distribute, in particular a pressurized aerosol, the valve comprising a tubular control rod defining a longitudinal axis and having a end fitted with a dispensing orifice, the device comprising lever means for actuate the valve, these means comprising a button-pusher whose outer face has a zone of application for an actuating force of the valve, the push button comprising, on the one hand, a nipple in abutment against the end of the rod and fitted 2.0 of a distribution nozzle and a connecting channel the dispensing orifice to said nozzle and, on the other on the other hand, specific support means to cooperate with additional stop means linked to the container for form a fulcrum of the lever, in which said application area has an angular extent centered on said longitudinal axis of at least about 180 ° and, support means and the stop means have a range angular in correspondence with that of said area to determine together, depending on the position actuation force, on the application area, a fulcrum of said lever, located substantially in the plane passing through the longitudinal axis and the point application of force, characterized in that the stop means are part of a ring fixed on 35 'the container.
According to the invention, the support points of the

4 lever on the ring are preferably located more close to the valve only when said fulcrum is located on the crimping bead of the valve; through therefore, the force to be exerted to actuate the valve is weaker. You can easily choose the size sion of the diameter of the ring, which allows to modulate the value of the force to be exerted; such modulation was impossible with state devices the technical. The ring can be fixed on any type of container: one-piece container or container in three rooms. In addition, it should be noted that when the point lever support is located on the bead of ser-weaving the valve bowl it is usually located at a level below the top level of the valve stem. Therefore, the thrust exerted by the lever is always at an angle to the axis of the valve stem and this thrust causes a lateral displacement of the top of the valve stem when you press it with the lever: the valve can be damaged. The ring according to the invention can easily be dimensioned so that the lever support points are located sensi-in a plane perpendicular to the axis of the ring and passing through the end of the tubular rod.
2a Preferably, for a container of the type upper opening closed by, an upper bowl valve mounting, the bowl being fixed to the opening of the container by a bead of crimp wise, said ring is supported by a lower edge on the container and comprises a fixing means suitable for cooperate with a re-entrant part of the container included under said bead. This provision is advantageous because the bead of the container is not used in the present invention that in fixing the means of stop and not the fulcrum of the lever.
Thanks to the large angular extent of the zo ~~~~~
actuation force application area, this push button has the advantage of a large surface of use, facilitating the order.
In a preferred embodiment, the s said angular extent of the application area is between approximately 180 ° and 360 °, in particular, of the order of 270 °. This large area of use improves ergonomics. Indeed, it allows to put multiple fingers on the push button or just one finger if desired without partial positioning effort culier: finger placement is natural.
Preferably, the angular extent of the support means and stop means is included between approximately 180 ° and 360 ° to be connected with the preferred values of the angular extent of the application area.
Advantageously, the support points formed by the support means and the stop means complementary, have as geometrical place a band narrow in an arc or a circle whose opening angular is between approximately 180 ° and 360 °, and whose axis is coincident with said longitudinal axis.
This arrangement is preferred because the distance between any fulcrum and the end of the rod manda is substantially constant which has for consequence of making the force substantially constant button to be applied on the push button when the point, applying this force actuation remains substantially at the same distance of the longitudinal axis. Indeed, the lengths of lever arm implemented then have values practically constant. In these conditions, the effort to be exerted, for example by a finger, will depend basically the distance from his area applicable to the longitudinal axis but will independent of the angular position of the area application on the push button.
In a preferred embodiment, the support means surrounding said stop pin, comprising try a cylindrical socket, of revolution around the longitudinal axis, having in the vicinity of its open end towards the container, a shoulder protruding radial generally forming a circular ring the outer contour of which forms a circle support able to cooperate with the stop means complementary.
Preferably, the stop means complementary located on the ring are constituted by a flat face substantially orthogonal to the axis longitudinal and fixed in position facing the x5 container, this face being delimited by an opening circular torus coaxial with the longitudinal axis and with a radius greater than the outside radius of the socket but less than the radius of the support circle. This arrangement has the advantage of retaining the push button because the circular ring of the socket is supported in abutment against the flat face in an area close to circular opening. The above means together determine a point very simply single support when the plane of the ring is slightly inclined with respect to the flat face while staying in touch with her. .
Advantageously, the circular ring is divided into several segments by interstices so to make them slightly deformable and to facilitate, during assembly, crossing the circular opening coaxial laire by said ring.
Also preferably, the circular ring ae continues by a frustoconical lateral face conver-giant towards the open end of the socket for also facilitate positioning and chissement by the ring of the circular opening 0 ~ ~~. ~ I ~.
coaxial.
In a preferred embodiment, the ring is in contact with said face or at immediate vicinity thereof when the tubular rod the valve area is at rest. This provision puts an immediate attack on the valve by force actuation by reducing the clearance of the mechanism.
In a preferred embodiment, the canal opens into a frustoconical recess of the nipple, this recess overlapping the end of the rod in a connection. This disposi tion allows tilting of the push button by relative to the longitudinal axis while obtaining a rac sufficient cord between the end of the rod provided of a distribution orifice, the channel and the nozzle.
In a preferred embodiment, the dispensing nozzle is arranged substantially in the center be on the external face of the push button and according to a substantially longitudinal direction. This arrangement tion provides an angular range of 360 °
for the area of application of the actuating force.
In another embodiment, the nozzle distribution is provided on the nipple according to a substantially radial direction.
To better understand the invention, we will describe, below, as examples purely illustrative and not limiting, two modes of realization shown in the accompanying drawings.
On these drawings - Figure 1 shows in longitudinal section, a first embodiment of this invention;
- Figure 2 shows a cross section according to line II-II of Figure 1;
- Figure 3 shows, similarly to Ia Figure 1, the device while the push button has was slightly supported on one side;
- Figure 4 shows similarly to the fi-gure 3, the device with the push button plus strongly supported from the same rated;
- Figure 5 shows a second form of realization of the present invention; and - Figure 6 shows- a section along the line VI-VI of figure 5.
Figures 1 to 4 show a first embodiment of the present invention o ~ on distinguishes a container, known per se, designated global ment by the reference sign 1 and containing a pressurized aerosol. This container is of the open type upper structure closed by a circular bowl 2 of mounting of a distribution valve which can be distinguished the tubular control rod 3 defining an axis longitudinal XX. Bowl 2 is attached to the opening of the container by a crimping bead 4. The device according to the invention comprises means for lever for actuating the valve, these means comprising two separate parts. The first part is consisting of a push button indicated globally by the reference 10. The second part includes a fixing ring on the container, marked overall ment by reference 11.
The push button 14 is a molded part in one piece, in particular in a thermoplastic material-tick, push button 10 has an external face 15 of generally frustoconical shape of revolution, constituting an application area 15a, extending over more than 180 ° around the XX axis, for a force valve actuation. This face 15 is bordered at its periphery by an edge face 16 forming a segment cylindrical revolution around the axis XX. The diameter of this cylindrical face 16 is less than that of the cylindrical container. 1. The push button has an internal face 17 corresponding to the face and which is parallel to it. This internal face 17 of the push button defines a concave space globally next to the container. Both sides 15 and 17

5 determine between them a wall 18 of thickness glo-constant beating. At the edge face 16. corresponds also a parallel cylindrical internal face 19.
These latter together determine a cylindrical wall.
drique of substantially constant thickness.
10 The push button 10 has a nipple 20 cylindrical of revolution of axis XX and of only one holding with the wall 18. This stud 20 has at its upper part of the wall 18 a nozzle 21 whose axis is oriented substantially in one direction 15 radial. This nozzle 21 is connected to a long channel tudinal 22 of axis XX which opens at the end lower of said nipple. This end has a frustoconical recess 23 which overlaps in abutment the end 24 of the control rod in a connection fluid connection. The frustoconical form of the recess 23 allows a certain inclination of the pin 20 relative to the axis of the control rod 3.
This inclination nevertheless allows a connection of cord between the end 24 of the rod and the nozzle 21. Preferably the nipple is in a thermic material elastically deformable moplastic for ensure good connection contact between the end of the rod and the frustoconical recess of the nipple.
A generally cylindrical socket 30 extends into the concave part defined by the internal face 17 of the push button. This socket cylindrical 30 of revolution around the axis XX
surrounds at least part of the nipple 20 and presents at the near its open end towards container 1 a projecting radial shoulder 31 generally forming 2 ~ 4 ~ '~~. ~
a circular ring whose outer contour forms a support circle 32 able to cooperate with the means complementary stop of the ring 11. The shoulder 31 is continued by a frustoconical side face 33 5 converging towards the open end 34 of the socket 30.
The ring 11 has a first wall upper cylindrical outer 35. This wall is con-continued by a shoulder 36, projecting radially, which 10 extended by a second cylindrical outer wall 37. The ring 11 is delimited by a circular edge upper 38 and a lower circular edge 39. The circular edge 39 comes to rest on a rim of the container 1. The first wall 35 is integral with a inner wall 40 to the ring 11. This wall 40 has balement the shape of a section of converging cone to the top. This internal wall 40 is delimited at its upper part by a circular wall 41 comprising carrying a circular opening 42 of axis XX. This circular opening 42 has a radius greater than the radius outside of the sleeve 30 but less than the radius of the support circle 32. This circular wall 41 is bounded by an upper face 43 and a flat face lower 44, abutment for the shoulder 31 and the support circle 32. This inner flat face 44 is substantially orthogonal to the XX axis. The wall 40, which defines a concave space opposite the end top of container 1, is integral with a single holding with a wall 45 in the form of a cylindrical ring which ends, towards the container, by a ledge radial 46 delimiting a circular orifice 47. The radial rim 46 engages under the bead 4 to constitute the means of fixing the ring 11 to the container 1 in cooperation with the circular edge 39 of the ring 11.
The face of the edge 16 of the push button 2 ~ 3 ~~. '~~~.

commits within the space defined by the upper end of the wall 35 of the ring 11.
In this embodiment where the container is type with upper opening closed by a bowl valve mounting circular 2, the radius of the cer support key 32 is less than the radius of the bowl circular 4. A removable cover 50 in the form of cylindrical cap can come over the device, by sliding on the outer cylindrical face of the wall 35 of the ring 11.
As more particularly visible at the Figure 2, the wall 18 of the push button 10 and a part of socket 30 are interrupted by two radial edges which define an angular sector greater than or equal to the angular sector of the outgoing jet in operation of the nozzle 21. The radial edges of wall 18 continue downward through two walls planes 51 and 52 which join the nipple 20 and which end with a wall 53 in circular sector felt substantially orthogonal to axis XX and in one piece with the nipple 20 in an area close to its lower end. The overall lower end-circular of the sleeve 30 continues from one holding with the wall 53 under the underside of the latter. In a manner not shown in Figs ures 1 é 4 but visible in ~ Figure 6, the socket 30 and the circular ring 31 are divided into several segments by interstices. The walls 51, 52, 53 create a hollow area for the passage in front of the nozzle ejection cone.
The mounting of the device on the container 1 is carried out as follows. The ring 11 is placed in position on the end of the container 1 by snap-fitting of the radial rim 46 onto the bead 4 in the re-entrant part of the container included under said bead. Leak the push button 10 is fixed 2 ~ dl ~ l ~~.

in the circular opening 42 of the ring, making cross this opening 42 by the shoulder 31 of the socket 30. This crossing is facilitated by the presence of gaps on the sleeve and the shoulder 31.
Figures 3 and 4 show how ment of the device according to the present invention. A
actuating force (F) is applied to the part left of the application zone 15a of the button-button. The push button 10 tilts and, on the left side, penetrates slightly inside the ring 11. The support circle 32 then rests on opposite to the right, on the stop formed by the flat face 44 of abutment of the ring 11. Dies time, the nipple 20 presses on the end of the rod 3 and pushes it into the valve, which effect of starting the release of the contained product in container 1. Figure 3 shows a toggle-more important of the push button compared to the control rod 3, which has caused a depression larger of it in the valve and an opening more complete of the latter.
Figures 5 and 6 show a second embodiment of the device according to the invention.
The corresponding parts of those of the previous achievement include numbers of reference increased by 100. In this form of realization, the essential difference is that the nozzle distribution 121 is arranged substantially in the center of the external face 115 of the push button 110 in the extension of channel 122 and along axis XX. The par-central tie of the wall 118 of the push button carries a thickening in favor of which has been formed a cylindrical recess 200 0 ~ 1 opens the nozzle 121. This cylindrical recess constitutes a small tank for small quantities of substance ~

2 ~~ ~ '~~. ~.

distribute which could at the end of an actuation of this valve, stay in contact with and in the vicinity of the dispensing nozzle 121, and thus, prevent there get the support areas dirty with this product.
In this embodiment, the angular extent of the application area 115a is 360 °.
Figure 6 shows that in this form of realization, the sleeve 130 and the shoulder 131, for-mant circular ring, were divided into four seg-menu by four interstices 201. The mounting of this device and its operation are in every way analogous to those which have been previously described. The nozzle projects in the case od the container 101 is a aerosol can, a conical jet whose axis then corresponds to the longitudinal axis XX.

Claims (15)

1. Device for actuating a valve distribution fitted to a container (1, 101) containing a product to be dispensed, the valve comprising a rod tubular (3, 103) control defining an axis longitudinal (XX) and having one end (24, 124) fitted with a dispensing orifice, the device comprising lever means for actuating the valve, these means comprising a press button (10, 110) having an external face (15, 115) comprising a zone application (15a, 115a) for an actuating force of the valve, the push button (10, 110) comprising, with hand, a nipple (20, 120) in abutment against the end (24, 124) of the rod and equipped with a nozzle (21, 121) of distribution and a channel (22, 122) connecting the orifice dispensing to said nozzle (21, 121) and, on the other hand, specific support means to cooperate with means of additional stopper linked to the container (1, 101) for form a fulcrum of the lever, in which said zone of application (15a, 115a) has a centered angular extent on said longitudinal axis (XX) of at least about 180 ° and wherein the support means (32, 132) and the means of stop (44, 144) have an angular extent in correspondence with that of said zone (15a, 115a) to determine together, depending on the position of the force actuation, on the application area (15a, 115a), a fulcrum of said lever, located substantially in the plane passing through the longitudinal axis (XX) and the point application of force, characterized in that the stop means (44, 144) are part of a ring (11, 111) attached to the container (1, 101). 2. Device according to claim 1, characterized by the fact that the support means, surrounding said stop pin (20, 120) has a socket globally cylindrical (30,130), of revolution around the longitudinal axis (XX), having in the vicinity of its open end towards the container, a shoulder (31, 131) projecting radial generally forming a circular ring having an outer contour forming a support circle (32, 132) able to cooperate with the stop means (44, 144). 3. Device according to claim 2, for a container (1, 101) of a closed top opening type by a circular bowl (2, 102) for mounting the valve, characterized by the fact that the radius of the support circle (32, 132) is less than the radius of said bowl circular (2, 102). 4. Device according to any one of Claims 1 to 3, characterized in that the lever support points on the ring are located substantially in a plane perpendicular to the axis of the ring (11, 111) and passing through the free end of the rod tubular (3, 103). 5. Device according to any one of claims 1 to 4 for a container of a type upper opening closed by a circular bowl (2, 102) mounting the valve, the circular bowl (2, 102) being fixed to the opening of the container by a crimping bead (4, 104), characterized by the fact that the ring (11, 111) is supported by a lower edge (39, 139) on the container and has a fixing means (46, 146) able to cooperate with a re-entrant part of the container included under said bead (4, 104). 6. Device according to any one of Claims 1 to 5, characterized in that the support means (32, 132) and the stop means (44, 144) have an angular extent between approximately 180 ° and 360 °. 7. Device according to claim 6, characterized by the fact that the support points have as geometric link a narrow band in an arc having an angular opening of between approximately 180 ° and 360 °, and an axis coincident with said longitudinal axis (XX). 8. Device according to claim 2, characterized in that the stop means are formed by a flat abutment face (44, 144) substantially orthogonal to the longitudinal axis (XX) and fixed in position opposite the container (1, 101), this face (44, 144) being delimited by a circular opening (42, 142) coaxial with the longitudinal axis (XX) and a radius greater than the outside radius of the socket (30, 130) hands smaller than the radius of the support circle (32, 132). 9. Device according to claim 2 or 8, characterized by the fact that the socket (30, 130) is divided into several segments by interstices (201). 10. Device according to claim 2, characterized by the fact that the circular ring of the ring (11, 111) is continued by a frustoconical lateral face (33, 133) converging towards the open end (34, 134) of the socket (30, 130). 11. Device according to claim 2 or 10, characterized in that the ring (31, 131) is in contact with one face of the stop means (44, 144) or at immediate vicinity thereof, when the tubular rod (3, 103) of the valve is at rest. 12. Device according to any one of Claims 1 to 11, characterized in that the said channel (22, 122) opens into a frustoconical recess (23, 123) of the nipple (20, 120), this recess overlapping in stop the end (24, 124) of the rod in a connection fluid connection. 13. Device according to claim 6, characterized by the fact that the support points have as geometrical place a narrow band in a circle having an axis coincident with said longitudinal axis (XX). 14. Device according to claim 2 or 8, characterized by the fact that the circular ring is divided into several segments by interstices (201). 15. Device according to claim 2 or 8, characterized by the fact that the socket (30, 130) and the circular ring are divided into several segments by interstices (201).