Fluid dispenser

Information

  • Patent Grant
  • 6460740
  • Patent Number
    6,460,740
  • Date Filed
    Wednesday, December 5, 2001
    23 years ago
  • Date Issued
    Tuesday, October 8, 2002
    22 years ago
Abstract
A fluid dispenser having a reservoir forming a bottom, side walls, and a neck; and a dispensing member, such as a pump or a valve mounted on the neck. The dispensing member is provided with a tube extending inside the reservoir to the point of being in contact with the bottom via its free bottom end. At least over a portion of the tube's length, the tube has a deformation zone that is deformed by the free end of the tube pressing against the bottom.
Description




The present invention relates to a fluid dispenser comprising a reservoir serving to contain the fluid, and a dispensing member such as a pump or a valve for extracting and dispensing the fluid contained in the reservoir. Conventionally, the reservoir comprises a bottom, side walls, and a neck on which or in which the dispensing member is mounted. This type of fluid dispenser is in frequent use in the fields of perfumes, cosmetics, or even pharmaceuticals. The pump is actuated manually by pressing on a pusher.




BACKGROUND OF THE INVENTION




To draw off fluid from inside the reservoir, the dispensing member conventionally comprises a tube which extends from its inlet to the bottom of the reservoir. Such a tube is commonly referred to as a “dip tube” and it preferably extends to the point of touching the bottom of the reservoir. However, it can happen that the free end of the dip tube remains spaced apart from the bottom of the reservoir so that not all of the fluid contained in the reservoir can be drawn off through the dip tube. Furthermore, the dip tube is not a particularly aesthetically-pleasing element, and it can even spoil the aesthetic appearance of the dispenser, in particular in the field of perfumes.




Document U.S. Pat. No. 2,950,031 describes a fluid dispenser comprising a reservoir in the form of a can equipped with a cup in which a valve is mounted. The valve includes a dip tube that extends towards the bottom of the can to terminate in a corolla-like skirt. The corolla-like skirt is deformable so as to enable it to be inserted into the can. However, inside the can, the corolla-like skirt relaxes to return to its initial rest state. Once in the final assembly position, the corolla-like skirt is not in contact with the bottom, but rather it remains some distance away, so as to define an annular inlet opening through which the liquid stored in the can, can rise into the dip tube and through said dip tube up to the valve.




OBJECTS AND SUMMARY OF THE INVENTION




An object of the present invention is to improve the aesthetic appearance of the dip tube while also optimizing its capacity to draw off the fluid contained in the reservoir.




To achieve this object, the present invention provides a fluid dispenser comprising:




a reservoir forming a bottom, side walls and a neck; and




a dispensing member, such as a pump or a valve mounted on the neck, said member being provided with a tube extending inside the reservoir to the point of being in contact with said bottom via its free bottom end;




wherein, at least over a portion of its length, said tube has a deformation zone which is deformed by the free end of the tube pressing against said bottom. The tube pressing against the bottom of the reservoir guarantees that the tube is properly in contact with the bottom so as to draw off the maximum possible amount of fluid. In addition, the deformation zone makes it possible to compensate for the surplus initial length of the tube that is necessary to ensure that the tube is properly in contact with the bottom. The deformation zone of the tube may advantageously impart an aesthetically-pleasing effect that contributes to the overall appearance of the dispenser. It is possible, by means of a configuration of openings, cutouts, or slots in the tube, to impart an attractive appearance to the deformation zone.




Preferably, the deformation zone has a diameter greater than the diameter of the remainder of the tube, and advantageously greater than the diameter of the neck of the receptacle. It is even possible to dispose a resilient flexible element inside the tube at said deformation zone, which element guides or participates in the visually attractive deformation of the tube.




The tube may be a dip tube, or a tube surrounding a dip tube. When the dip tube extends inside the tube, the dip tube may be spaced apart from the bottom of the reservoir via its free end, i.e. it is the tube surrounding it that forms an extension-like portion that extends to the point of being in contact with the bottom of the reservoir. Advantageously, the tube may have a non-deformed zone between the free end of the dip tube and the bottom of the reservoir. It is thus possible to use the decorative tube that surrounds the dip tube to extend the dip tube, thereby guaranteeing that the dip tube draws off the maximum possible amount of fluid down to the bottom of the reservoir.











BRIEF DESCRIPTION OF THE DRAWING




The invention is described more fully below with reference to the accompanying drawing giving two embodiments of the invention by way of example.




In the figures:





FIG. 1

is a vertical section view through a fluid dispenser of the invention;





FIG. 2

is an enlarged view of the circled portion of

FIG. 1

, corresponding to the bottom end of the tube; and





FIG. 3

is a view similar to the

FIG. 2

view, showing a variant embodiment in which a dip tube is inserted inside the tube of the invention.











MORE DETAILED DESCRIPTION




The dispenser of the invention shown in

FIG. 1

comprises a reservoir


1


defining a bottom


10


, side walls


11


, and a neck


12


. The dispenser further comprises a dispensing member


2


, e.g. a pump or a valve, mounted on the neck


12


of the reservoir


1


. The dispensing member


2


comprises a body


20


inserted in the neck


12


, and a pusher


21


which is situated above the neck


12


and which is pressed to actuate the dispensing member, and thereby to dispense fluid contained in the reservoir


1


.




At the bottom end of the body


20


of the dispensing member


2


, a tube


3


extends towards the bottom


10


of the reservoir


1


. The tube


3


is provided with a top end


32


connected securely and in leaktight manner to the inlet (not shown) of the dispensing member. At its other end


31


, the tube


3


is in contact with the bottom


10


. It can be seen in

FIG. 1

that the tube


3


is provided with two deformation zones


33


and


33


′. The diameter of each of these deformations


33


,


33


′ is greater than the diameter of the remainder of the tube, which is advantageously cylindrical. It is possible, however, to consider providing tubes of non-constant diameter. It can be observed that the deformation zone


33


′ has a diameter greater than the inside diameter of the neck


12


.




The zones


33


and


33


′ are deformed by the free bottom end


31


of the tube


3


pressing against the bottom


10


of the reservoir


1


. In the initial state (not shown), the deformation zones


33


,


33


′ are not apparent or are hardly apparent. The tube is then exactly straight or imperceptibly curved, and it extends along a longitudinal axis. It is only when the free end of the tube is pressed against the bottom of the reservoir that the deformation zones appear. Since the free end


31


of the tube


3


comes to press against the bottom


10


, the tube is axially stressed, thereby generating a reduction in its length that results in it being deformed at the zones


33


and


33


′. The deformation generates no curvature or hardly any curvature of the tube, which remains substantially on its original longitudinal axis. Thus, no bends are formed in the tube.




To enable the deformation zones


33


and


33


′ to form at predetermined places along the length of the tube


3


, it is necessary to form weakness zones at these predetermined places, thereby facilitating deformation of the tube. For example, these weaknesses may be provided in the form of openings, slots, or notches


34


defining fine flexible blades


36


disposed side-by-side and interconnected at both of their ends to the intact remainder of the tube, as can be seen in FIG.


2


. Thrust on the free end of the tube then causes the blades of the deformation zone to buckle outwards, thereby locally increasing the diameter of the tube.




It is even possible to include a resilient flexible element


4


in the deformation zone


33


, which element tends to expand inside the tube at the deformation zone whenever said deformation zone is generated by pressing on the free end of the tube. The resilient flexible element


4


does not cause the deformation of the zone


33


′, but rather it contributes only to shaping the profile of its deformation in visually attractive manner. However, the resilient flexible element


4


must allow a passageway to remain for the fluid.




The above-described tube may serve directly as a dip tube, but preferably it serves as a decorative tube inside which a genuine dip tube


22


extends, as can be seen in FIG.


3


. The decorative tube


3


then surrounds the dip tube


22


, which is itself connected to the inlet of the pump


2


so as to communicate with the chamber of the dispensing member. As can be seen in

FIG. 3

, the dip tube


22


does not have to extend to the point of its free end


220


being in contact with the bottom


10


of the reservoir


1


, but rather it may remain spaced apart from said bottom. The decorative tube


3


may then advantageously serve as an extension to the dip tube


22


, via a portion


35


that connects the free end


220


of the dip tube


22


to the bottom


10


, with which it is in contact via its bottom end


31


. The portion


35


advantageously forms a non-deformed zone of the tube


3


which is contact with the free end


220


of the dip tube


22


over its entire periphery, and advantageously in leaktight manner. In this way, the zone


35


forms a genuine extension to the dip tube


22


which thus does not need to be cut with very high accuracy.




Above the non-deformed zone


35


, the decorative tube


3


may form a deformation zone


33


as defined above, i.e. with vertical slots


34


that define strips


36


between them which are bent due to the thrust exerted on the free bottom end


31


of the tube


3


. The dip tube


22


is therefore visible in part at said deformation zone


33


, and it is advantageously possible to create an aesthetically-pleasing effect by choosing different colors for the dip tube


22


and for the decorative tube


3


.




By means of the invention, a traditional dip tube may both be optimized functionally, and also be made visually attractive.



Claims
  • 1. A fluid dispenser comprising:a reservoir forming a bottom, side walls and a neck; and a dispensing member mounted on the neck, said dispensing member being provided with a tube extending inside the reservoir to the point of being in contact with said bottom via its free bottom end; wherein, at least over a portion of a length of said tube, said tube has a deformation zone which is deformed by the free end of the tube pressing against said bottom.
  • 2. A dispenser according to claim 1, in which said zone has a diameter greater than the diameter of the remainder of the tube.
  • 3. A dispenser according to claim 1, in which said zone has a diameter greater than the diameter of the neck.
  • 4. A dispenser according to claim 1, in which said zone is provided with openings.
  • 5. A dispenser according to claim 1, in which a resilient flexible element is disposed inside the tube at said deformation zone.
  • 6. A dispenser according to claim 1, in which said tube serves as a dip tube.
  • 7. A dispenser according to claim 1, in which a dip tube extends inside said tube.
  • 8. A dispenser according to claim 7, in which said dip tube is spaced apart from the bottom of the reservoir via its free end, said tube having a non-deformed zone between the free end of the dip tube and the bottom.
  • 9. A dispenser according to claim 1, in which the deformation of the zone, which deformation is obtained by the pressing of the free end of the tube, is accompanied by a reduction in the length of the tube, which nevertheless remains on a longitudinal axis.
  • 10. A dispenser according to claim 1, in which the zone is provided with slots defining flexible blades between them.
  • 11. The dispenser according to claim 1, wherein said dispensing member is one of a pump and a valve.
  • 12. A fluid dispenser comprising:a reservoir having a bottom, side walls, and a neck that defines an opening; a dispensing member disposed within the opening defined by said neck; and a first tube coupled to a bottom of said dispensing member and extending inside said reservoir to a distal end of said first tube, said distal end of said first tube in contact with said bottom; wherein, said first tube includes a deformation zone that is deformed by compression of said first tube between said dispensing member and said bottom.
  • 13. The fluid dispenser according to claim 12, wherein said first tube is immobile in an axial direction upon activation of said dispensing member to dispense fluid within said reservoir.
  • 14. The fluid dispenser according to claim 12, wherein said dispensing member is a pump.
  • 15. The fluid dispenser according to claim 12, wherein said dispensing member is a valve.
  • 16. The fluid dispenser according to claim 12, wherein a second tube extends inside said first tube, and wherein said dispensing member, upon being actuated, conveys fluid through an entire length of said second tube.
  • 17. The fluid dispenser according to claim 16, wherein a second tube extends inside said first tube along an entire length of said second tube between said dispensing member and said bottom.
  • 18. The fluid dispenser according to claim 16, wherein a distal end of said second tube opposite said dispensing member is spaced apart from said bottom of said reservoir, and wherein said first tube is rigid between a distal end of said second tube opposite said dispensing member and said bottom.
  • 19. The fluid dispenser according to claim 12, wherein said deformation zone is formed of slots defining flexible blades between the slots.
  • 20. The fluid dispenser according to claim 12, wherein said deformation zone is formed by a weakened portion of said first tube, and wherein said weakened portion is an integral one-piece construction of said first tube.
Priority Claims (1)
Number Date Country Kind
00 15994 Dec 2000 FR
US Referenced Citations (3)
Number Name Date Kind
2950031 Abplanalp et al. Oct 1960 A
3409184 Stengle, Jr. Nov 1968 A
4148419 MacNair Apr 1979 A