Assembly for dispensing a pasty product or a gel

Information

  • Patent Grant
  • 6499898
  • Patent Number
    6,499,898
  • Date Filed
    Thursday, July 12, 2001
    23 years ago
  • Date Issued
    Tuesday, December 31, 2002
    21 years ago
  • Inventors
  • Examiners
    • Yuen; Henry C.
    • Cartagena; M A
    Agents
    • Wood, Phillips, Katz, Clark & Mortimer
Abstract
An assembly is provided for dispensing a viscous fluid substance which can include a paste or a gel. The assembly includes a receptacle of variable volume containing the substance to be dispensed, and the dispensing is effected with an airless pump which comprises a pump body that communicates freely with the inside of the receptacle, and an outlet member through which the substance is discharged. The dispensing is effected with a dispensing head provided with dispensing channels which are open to the outside and which are fed via the outlet member of the pump. The assembly is characterized by the fact that the dispensing head comprises (1) a backplate which is provided with (a) an assembly system for assembling it onto the pump outlet member and (b) an opening facing the pump outlet member, and (2) an applicator element which is secured to the backplate, which is disposed on the other side of the backplate from the receptacle, and which is provided with openings that open towards the outside. The dispensing channels which connect the pump outlet member to the openings in the applicator element are disposed between the backplate and the applicator element.
Description




TECHNICAL FIELD




BACKGROUND OF THE INVENTION




The present invention relates to an assembly for dispensing a semi-liquid substance or a gel.




The assembly of the invention is of the type including an airless pump. The receptacle containing the substance to be dispensed must therefore be of variable volume, i.e. its volume must be capable of decreasing as the substance is dispensed. In known manner, the variable-volume receptacle may be a rigid receptacle containing a follower piston that moves towards the pump as dispensing progresses, or a receptacle having a deformable wall made of a flexible plastics material or folded concertina-like. The pump is generally fixed to the pump body by being crimped onto a crimping dish or a plate. The pump includes a hollow projecting stem which serves both to actuate the pump and also to discharge the substance. The pump is actuated via a dispensing head by pushing in the projecting stem, the dispensing head containing dispensing channels that open out to the outside. That type of dispensing assembly is generally used for liquid or substances of little viscosity, and the substance is sprayed from the dispensing head.




For viscous substances, such as deodorants, an assembly is generally used in which the substance is in a receptacle provided with a follower piston, and in which the piston is pushed by means of a knurled wheel mechanism to discharge the substance. That system suffers from drawbacks:




firstly, the substance is not protected from ambient air during storage because, although the receptacle is closed with a lid, the lid is not airtight so that, in order to protect the substance during storage, it is necessary to put a protective film over the dispensing head; and




secondly, applying the substance requires two successive actions: actuating the knurled wheel and applying the substance.




SUMMARY OF THE INVENTION




The present invention relates to a dispenser assembly which makes it possible to use a pump for dispensing a fluid substance that is relatively viscous, i.e. that is in the form of a paste or of a gel, and which offers the advantage of requiring only a single action in order both to dispense and to apply the substance.




In the invention, a receptacle of variable volume is used that is provided with a pump associated with a dispensing head, and that makes it possible, with a single action, both to actuate the pump and to apply the substance, the pressure exerted by the user on the dispensing head during application, e.g. as it rubs on the skin, actuating the pump and causing the substance to be dispensed.




The present invention provides an assembly for dispensing a viscous fluid substance, in particular a paste or a gel, said assembly including a receptacle of variable volume containing the substance to be dispensed, dispensing taking place by means of an airless pump which comprises a pump body that communicates freely with the inside of the receptacle, and an outlet member via which the substance is discharged, said dispensing being implemented by means of a dispensing head provided with dispensing channels which are open to the outside and which are fed via the outlet member of the pump, said assembly being characterized by the fact that the dispensing head comprises firstly a backplate which is provided with assembly means for assembling it onto the pump outlet member and with an opening facing said pump outlet member, and secondly an applicator element which is secured to the backplate, which is disposed on the other side of the backplate from the receptacle, and which is provided with openings opening towards the outside, the dispensing channels which connect the pump outlet member to the openings in the applicator element being disposed between the backplate and said applicator element.




Under these conditions, when the applicator element is pressed against the skin, the pump is simultaneously actuated because the applicator element and the backplate are secured together. The substance is discharged through the openings in the applicator element by means of the channels that connect the outlet member of the pump to the openings in applicator element. In the invention, the pressure exerted on the dispensing head during application is used to actuate the pump.




Advantageously, the pump is a pump having a projecting stem, said stem being hollow to constitute an outlet member through which the substance is discharged, and being capable of being pushed towards the pump body to dispense said substance.




In the invention, the dispensing channels may be provided in the backplate or in the support, or also in part in that surface of the backplate which faces towards the applicator element and in part in that surface of the applicator element which faces towards the backplate, the facing surfaces of the backplate and of the applicator being complementary and forming channels when they are disposed one against the other.




Preferably, the various channels connecting the pump outlet to the various openings of the applicator element have cross-sections that vary as a function of the lengths of the various channels, i.e. as a function of the relative disposition of the various openings and of the outlet of the pump, so as to obtain, for all of the openings in the applicator element, flow rates of substance to be dispensed that are substantially equal.




In the invention, the backplate is advantageously a plate that is generally plane or slightly convex. It is advantageously provided with an opening surrounded by a sleeve facing towards the receptacle, and serving to secure to the pump stem.




In a first embodiment of the invention, the applicator element includes a plate that is plane or slightly convex and that is provided with uniformly-distributed openings. During use, the user rubs the applicator against the skin, and, so doing, simultaneously actuates the pump and distributes the substance to be dispensed that is discharged via the openings provided in the plate.




In a second embodiment, the applicator element is provided with a trough whose end wall is provided with openings and whose side walls are fixed to at least one roller whose axis, embodied by a pin, is perpendicular to the axis of the receptacle, said roller being provided with radial blades, the axis of the roller being disposed so that the edges of the radial blades rub against the end wall of the trough and can take up the substance dispensed via the openings disposed in the end wall of the trough. The edges of each of the blades is preferably cut to a regular pattern, e.g. to a sinusoidal pattern.




In a third embodiment of the invention, the applicator element comprises a support provided with recesses in the form of spherical cups in which balls are disposed, openings being provided in the support at the bottoms of the recesses.




In a fourth embodiment of the invention, the applicator element comprises a comb made up of a base plate from which teeth project outwardly, each of the teeth being in the form of a prism of triangular or trapezium shaped right cross-section. Preferably, each of the teeth is formed of a prism having a cross-section that is isosceles trapezium shaped, and the edges of the teeth are disposed to be mutually parallel. The openings may be disposed in the base plate between the teeth but they preferably open out in the side walls of the teeth-forming prisms.




As indicated above, the backplate and applicator element assembly constitutes the system for actuating the pump. To this end, the assembly is fixed to the pump stem and it is suitable for being moved in linear translation when the user presses on the applicator element. The applicator element is generally provided with a skirt that is suitable for sliding on the side wall of the receptacle.




The pump used in the invention may be any airless pump. Preferably a “soft” pump is used that is actuated at a pressure less than 1 kilogram per square meter (kg/m


2


).




Since the pump used in the dispenser assembly of the invention is airless, i.e. it has no air intake, the receptacle containing the substance to be dispensed is of variable volume, as explained above. It may be constituted by a bag having deformable walls which deform as the substance is dispensed, or by a receptacle with concertina-like folds that close up. Preferably, it is constituted by rigid casing in which a follower piston is mounted to slide in leaktight manner, which follower piston moves closer to the pump as the substance is dispensed. The end of the rigid casing may be open or it may be closed, an opening then being provided to enable air to enter.




The dispensing head of the assembly of the present invention is preferably covered with a cap.




In order for the invention to be better understood, a description follows by way of non-limiting example of embodiments shown in the accompanying drawings.











BRIEF DESCRIPTION OF THE DRAWINGS




In the drawings:





FIG. 1

is an axial section view of a first embodiment of he assembly of the invention;





FIG. 2

is a plan view of the assembly shown in

FIG. 1

, after its protective cap has been removed;





FIG. 3

is an axial section view of the dispensing head of a second embodiment of the assembly of the invention, on III—III of

FIG. 5

;





FIG. 4

is a plan view of the dispensing head of

FIG. 3

, after the roller has been removed;





FIG. 5

is a section view on V—V of

FIG. 3

;





FIG. 6

is an axial section view of the dispensing head of a third embodiment of the assembly of the invention, on VI—VI of

FIG. 8

;





FIG. 7

is a plan view of the dispensing assembly of

FIG. 6

;





FIG. 8

is a section view on VIII—VIII of the assembly of

FIG. 6

;





FIG. 9

is an axial section view of a fourth embodiment of the assembly of the invention, on IX—IX of

FIG. 11

;





FIG. 10

is a plan view of the assembly of

FIG. 9

; and





FIG. 11

is a second view on XI—XI of the assembly of FIG.


9


.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




The dispensing assembly shown in

FIGS. 1 and 2

is designated by the overall reference


1


. It is made up of a receptacle


2


which is equipped with a pump


3


and with a dispensing head


4


, the dispensing head


4


being covered with a protective cap


38


. The receptacle


2


is a receptacle which is made of a rigid material, in particular of a rigid plastics material, and in which a follower piston


5


is mounted to slide in leaktight manner. The receptacle


2


is made up of a side wall


6


defining a cylinder of oval cross-section, as shown in FIG.


2


. At each of its bottom and top ends, the side wall


6


is provided with a rabbet whose back is formed by a portion of side wall of reduced thickness (respectively


7


and


8


. The rabbet corresponding to the portion


7


makes it possible to engage the side wall


6


into a base


9


in the form of a dish whose end wall is provided with an opening


9


through which air can enter. Naturally, the base


9


may be omitted, because its function is essentially to improve appearance. The receptacle


2


is closed at its end opposite from the base


9


by a plate


11


which is molded integrally with the side wall


6


of the receptacle


2


. The plate


11


is trough-shaped with its concave side facing towards the outside of the receptacle


2


, and it carries an axial sleeve


12


open at both of its ends, and projecting towards the outside of the receptacle


2


.




The pump


3


is pump of conventional type comprising a pump body


13


provided at its bottom (in

FIG. 1

) with an opening


14


putting the pump body


13


in communication with the substance P contained inside the receptacle


2


and, at its top (in FIG.


1


), with a movably-mounted hollow stem


15


which, in known manner, serves both to move the piston of the pump in the pump body and as an outlet via which the substance to be dispensed is discharged. The pump body


13


is disposed inside the sleeve


12


, and it is crimped thereon by means of a metal ring


16


, a sealing gasket


17


being disposed between the top edge of the sleeve


12


and the metal crimping ring


16


.




The dispensing head


4


is made up of a backplate


18


and of an applicator element


19


, the backplate


18


being engaged into the applicator element


19


by force. In the embodiment shown in

FIG. 1

, the backplate


18


is in the form of a convex plate, its convex side facing towards the outside. An opening


25


is provided in the backplate


18


. A sleeve


20


facing towards the inside of the assembly surrounds the opening


25


and projects from under the backplate. This sleeve


20


has an inside diameter that is equal to the outside diameter of the pump stem


15


, ignoring the necessary clearance.




The applicator element


19


is made up of a side wall


21


and of an oval end wall


22


which is oval in cross-section, like the receptacle


2


, and which has inside dimensions such that the inside surface of the side wall


21


is suitable for sliding in the rabbet corresponding to the reduced-thickness portion


8


of the side wall


6


of the receptacle


2


. The backplate


18


is in abutment against the end wall


22


and has the same outline as said end wall.




The side wall


21


has a height such that, when the dispensing head


4


is fixed via the sleeve


20


to the pump stem


15


, there remains some clearance between the bottom edge of the side wall


21


and the shoulder that limits the rabbet corresponding to the portion of reduced thickness


8


, so as to enable the side wall


21


to slide in said rabbet when the stem


15


is pushed into the pump body


13


.




Openings


23


are provided in the end wall


22


. In the embodiment shown in

FIG. 2

, there are eight openings disposed symmetrically about the long axis of the end wall


22


, the openings situated on the same side of the long axis being situated at a distance d apart from one another. The two symmetrical rows of openings


23


are also situated at the same distance d apart from each other.




Other configurations for the openings


23


are also possible, in particular as a function of the shape of the assembly


1


. For example, the openings may be disposed on a circle, or on an ellipse, or they may be aligned.




In this embodiment, the set of dispensing channels


24


are constituted by grooves provided in the backplate


18


, which grooves are closed by the applicator element


19


when the backplate


18


is pressed by being engaged by force against said applicator element


19


. The various channels connect the opening


25


in the backplate


18


that corresponds to the sleeve


20


to the openings


23


in the applicator element


19


. The pattern formed by the set of channels


24


is as shown in

FIG. 2

, i.e. it comprises an axial channel


26


extending along the long axis and intersecting the opening


25


, which channel is connected at either end to channels


27


disposed in an X-shaped layout, the channel


26


opening out at the center of the X; a channel


28


intersecting the opening


25


is disposed along the short axis of the backplate


18


, and it is connected to the middles of two symmetrical channels


29


that are parallel to the channel


26


; the channels


29


interconnecting in pairs the four openings


23


that are closest to the opening


25


. In cross-section, the channel


26


has dimensions that are larger than those of the other channels


27


,


28


, and


29


. This configuration offers the advantage of enabling the substance that is to be dispensed to be dispensed uniformly.





FIGS. 3

to


10


shows three other embodiments of the dispensing head. The receptacle with which these dispensing heads are associated is identical to the receptacle shown in FIG.


1


and is therefore not shown.




In the embodiment shown in

FIGS. 3

to


5


, the dispensing head is designated by the overall reference


104


. The dispensing head


104


comprises a backplate


118


and an applicator element


119


. The backplate


118


is provided with an opening


125


surrounded by a sleeve


120


projecting towards the receptacle. The pump stem


115


is engaged into the sleeve


120


. The applicator element


119


is provided with a skirt


121


suitable for sliding on the outside wall of the receptacle, as explained above with reference to FIG.


1


. The skirt


121


is connected to a trough-shaped end wall


122


whose concave side faces upwards. The end wall


122




a


of the trough is in the form of a right cylinder sector. It engages onto the backplate


118


by means of a rim


122




b


. It is provided with openings


123


which are disposed as described above with reference to

FIGS. 1 and 2

. The channels


124


are also disposed in the same configuration as that described with reference to

FIGS. 1 and 2

. The inside surface of the side wall


122




c


of the trough is provided with two notches


122




d


. A roller


130


is fixed via a pin


131


embodying its axis in the two notches


122




d


. The roller


130


is provided with radial blades


132


extending radially outwards from a central cylindrical core


133


. The edge of each of the blades


132


is cut to a sinusoidal pattern, as shown in FIG.


3


.




The device operates as follows. When the user wishes to apply the substance to the skin, the user presses the dispensing head


104


against the skin, thereby pushing in the pump stem


115


. The substance flows via the opening


125


, via the channels


124


, and via the openings


123


. Since the user rolls the roller


130


over the skin, the roller turns, and the blades


132


then take up the substance that is discharged via the openings


123


, and deposits it on the skin.




In the embodiment shown in

FIGS. 6

to


8


, the dispensing head is designated by overall reference


204


. The dispensing head


204


includes a backplate


218


provided with an opening


225


surrounded by a sleeve


220


that engages onto the pump stem


215


. The applicator element


219


onto which the backplate engages is made up of a support


22


provided with recesses


234


in the form of spherical cups containing balls


235


. In the embodiment shown, there are three recesses and three balls, and their centers are aligned. The support


222


is engaged by force into a cylindrical skirt


221


whose top edge is curved inwards to form a collar


236


. The bottom of each recess is provided with an opening


223


. The channels


226


are constituted by grooves provided in the support


222


, the grooves being closed by the backplate


218


when it is put in place. Since the openings


223


are aligned in the embodiment shown, there is a single rectilinear channel


224


, as shown in FIG.


7


.




In this embodiment, the dispensed substance is discharged via the openings


223


in the support


222


. When they are applied against the skin, the balls turn and they deposit the substance on the skin.




In the embodiment shown in

FIGS. 9

to


11


, the dispensing head is designated by overall reference


304


. This dispensing head


304


is constituted by a backplate


318


and by an applicator element


319


. The backplate


318


is provided with an opening


325


and with a sleeve


320


which engages onto the pump stem


315


. The applicator element


319


is provided with a cylindrical skirt


321


suitable for sliding on the receptacle and that defines a trough. The end wall of the trough is formed by a plane surface


322




b


from which parallel prismatic teeth


337


project, the right section of each tooth being isosceles trapezium shaped. The backplate


318


is fixed to the plane surface


322




b


of the applicator element


319


. The teeth


337


are provided with vertical channels


328


that open out in the faces of the teeth to constitute openings


323


. Between the backplate


318


and the surface


322




b


, a channel


326


is provided half in the backplate


318


and half in the surface


322




b


of the applicator element. The channels


323


open out in the channel


326


, thereby together constituting the channels


324


that connect the opening


325


in the backplate to the openings


223


in the applicator element. Operation is analogous to the operation described for the embodiment of FIG.


1


.



Claims
  • 1. An assembly (1) for dispensing a viscous fluid substance (P), in particular a paste or a gel, said assembly including a receptacle (2) of variable volume containing the substance (P) to be dispensed, dispensing taking place by means of an airless pump (3) which comprises a pump body (13) that communicates freely with the inside of the receptacle (2), and an outlet member (15, 115, 215, 315) via which the substance is discharged, said dispensing being implemented by means of a dispensing head (4, 104, 204, 304) provided with dispensing channels (24, 124, 224, 324) which are open to the outside and which are fed via the outlet member of the pump (3), the dispensing head (4, 104, 204, 304) comprising firstly a backplate (18, 118, 218, 318) which is provided with assembly means (20, 120, 220, 320) for assembling it onto the pump outlet member (15, 115, 215, 315) and with an opening (25, 125, 225, 325) facing said pump outlet member, and secondly an applicator element (19, 119, 219, 319) which is secured to the backplate (18, 118, 218, 318), which is disposed on the other side of the backplate from the receptacle (2), and which is provided with openings (23, 123, 223, 233) opening towards the outside, each dispensing channel (24, 124, 224, 324) connecting the pump outlet member (15, 115, 215, 315) to a respective opening (23, 123, 223, 323) in the applicator element (19, 119, 219, 319), the dispensing channels being disposed between the backplate (18, 118, 218, 318) and said applicator element (19, 119, 219, 319).
  • 2. An assembly according to claim 1, characterized by the fact that the pump (3) is a pump having a projecting stem (15, 115, 215, 315), said stem being hollow to constitute an outlet member through which the substance (P) is discharged and being capable of being pushed towards the pump body (13) to dispense said substance (P).
  • 3. An assembly according to claim 2, said assembly being characterized by the fact that the backplate (18, 118, 218, 318) is provided with an opening (25, 125, 225, 325) surrounded by a sleeve (20, 120, 220, 320) facing towards the receptacle (2), said sleeve fitting onto the free end of the pump stem (15, 115, 215, 315).
  • 4. An assembly according to claim 1, characterized by the fact that the dispensing channels (24) are provided in the applicator element (18).
  • 5. An assembly according to claim 1, characterized by the fact that the dispensing channels (124, 224) are provided in the applicator element (119, 219).
  • 6. An assembly according to claim 1, characterized by the fact that the dispensing channels (324) are provided in part in that surface of the backplate (318) which faces towards the applicator element (219) and in part in that surface of the applicator element (319) which faces towards the backplate (318), the facing surfaces of the backplate (318) and of the applicator (319) being complementary and forming channels (324) when they are disposed one against the other.
  • 7. An assembly according to claim 1, characterized by the fact that the various channels connecting the pump outlet member (15, 115, 215, 315) to the various openings (23, 123, 223, 323) of the applicator element (19, 119, 219, 319) have cross-sections that vary as a function of the distance from the openings to the pump outlet member so as to obtain, for all of the openings (23, 123, 223, 323) in the applicator element (19, 119, 219, 319), flow rates of substance to be dispensed (P) that are substantially equal.
  • 8. An assembly according to claim 1, characterized by the fact that the applicator element (19) constitutes a backplate (22) that is plane or slightly convex and that is provided with uniformly-distributed openings (23).
  • 9. An assembly according to of claim 1, characterized by the fact that the applicator element (119) is provided with a trough (122) whose end wall (122a) is provided with openings (123) and whose side walls (122c) are fixed to at least one roller (130) whose axis, embodied by a pin (131), is perpendicular to the axis of the receptacle (2), said roller being provided with radial blades (132).
  • 10. An assembly according to of claim 1, characterized by the fact that the applicator element (219) includes a support (222) provided with recesses (234) in the form of spherical cups in which balls (235) are disposed, openings (223) being provided in the support (222) at the bottoms of the recesses (234).
  • 11. An assembly according to of claim 1, characterized by the fact that the applicator element (319) comprises a comb (322) made up of a base plate (322b) from which parallel prismatic teeth (337) project outwardly, each of the teeth having a right cross-section that is isosceles trapezium shaped, the openings (323) opening out in the side walls of the prisms that form the teeth (337).
  • 12. An assembly according to of claim 1, characterized by the fact that the applicator element (19, 119, 219, 319) is provided with a skirt (21, 121, 221, 321) that is suitable for sliding on the side wall of the receptacle (2).
Parent Case Info

This application is an application filed under 35 U.S.C. Sec. 371 as a national stage of international application PCT/FR98/02165, which was filed Oct. 9, 1998.

PCT Information
Filing Document Filing Date Country Kind
PCT/FR98/02165 WO 00
Publishing Document Publishing Date Country Kind
WO00/21685 4/20/2000 WO A
US Referenced Citations (4)
Number Name Date Kind
4652163 Karliner et al. Mar 1987 A
4983061 Demarest Jan 1991 A
5052592 Wilken et al. Oct 1991 A
5937865 Dhaliwal Aug 1999 A
Foreign Referenced Citations (6)
Number Date Country
0 155 616 Sep 1985 EP
0 374 339 Jun 1990 EP
0 380 183 Aug 1990 EP
0 506 564 Sep 1992 EP
0 720 953 Feb 1996 EP
WO 9915567 Dec 1990 WO