DISPENSER WITH ARTICULATED DISPENSING TUBE

Abstract

A dispenser-container assembly for containing a substance and delivering it in a spray form in a target area. The assembly comprises: a container and a pump associated to said container to suck an amount of substance from said container and deliver it towards an outlet nozzle; a button to actuate said pump, said button comprising a button lateral surface; a body associable to the container and enclosing at least a portion of said button lateral surface; a dispensing cannula configured to assume a rest configuration and a configuration of use; and a cannula housing within which the cannula can be held in a secured way when the assembly is in its rest configuration, wherein said body is configured to retain and guide said button in an essentially translational movement.

Claims

1. A dispenser-container assembly (10) for containing a substance and delivering it in a spray form in a target area, the assembly (10) comprising: a container (12) and a pump (14) associated to said container (12) to suck an amount of substance from said container (12) and deliver it towards an outlet nozzle (142); a button (16) to actuate said pump (14), said button (16) comprising a button lateral surface (16b); a body (18) associable to the container (12) and enclosing at least a portion of said button lateral surface (16b); a dispensing cannula (20) configured to assume a rest configuration and a configuration of use; and a cannula housing (22) within which substantillay the full length of the cannula (20) can be held in a secured way when the assembly (10) is in its rest configuration, wherein said body (18) is configured to retain and guide said button (16) in an essentially translational movement.

2. The assembly (10) of claim 1, wherein said body (18) comprises a member which projects upwardly from said container (12), wherein an inner surface of said member directly faces a corresponding portion of the button lateral surface (16b).

3. The assembly (10) of claim 2, wherein said button (16) has a non-circular shape identified by a cross-section with a minor axis and a major axis of a length greater than the length of said minor axis.

4. The assembly (10) of claim 2, wherein said member follows at least a part of the contour of the container (12).

5. The assembly (10) of claim 2, wherein said member comprises two wings (18a, 18b) which extend upwards following a part of the contour of the container (12).

6. The assembly (10) of claim 5, wherein said two wings (18a, 18b) are separated by a slit for the cannula (20).

7. The assembly (10) of claim 1, wherein said cannula housing (22) comprises a channel which extends substantially along an axis parallel to a longitudinal axis of the assembly (10).

8. The assembly (10) of claim 1, also comprising a gripping notch (12c) configured to grasp the cannula (20) with the fingertips or fingernails and bring, at least partially, the cannula (20) outside of the housing (22).

9. The assembly (10) of claim 1, wherein said channel (22) is closed at the bottom (22a) so that actuation of said pump (14) is prevented when the dispensing cannula (20) assumes said rest configuration.

10. The assembly (10) of claim 1, wherein said cannula (20) is hinged rotatably to said button (16).

11. The assembly (10) of claim 1, wherein said assembly (10) has a non-circular shape identified by a cross-section with a minor axis and a major axis of a length greater than the length of said minor axis.

12. The assembly (10) of claim 11, comprising a curved face (10b) adapted to come into contact with the palm of a user's hand and a flat face (10f) adapted to come into contact with the fingers of the user's hand.

13. The assembly (10) of claim 1, wherein said substance is a mouthwash or similar to be dispensed in a spray form in the oral cavity of a human being.

Description

BRIEF DESCRIPTION OF FIGURES

[0041] The present invention will become clearer from the following description, provided by way of example and not limitation, to be read with reference to the accompanying drawings, in which,

[0042] FIG. 1 shows a known dispenser-container assembly;

[0043] FIG. 2 shows a dispenser-container assembly according to the present invention;

[0044] FIG. 3 shows a dispenser-container assembly according to the present invention without the pump button;

[0045] FIG. 4A is a side view of the dispensing container according to the present invention;

[0046] FIG. 4B is a cross-section taken along line B-B of FIG. 4;

[0047] FIG. 5 is a front view of the dispenser-container assembly according to the present invention;

[0048] FIG. 5A is a cross-section taken along line A-A of FIG. 5; and

[0049] FIG. 6 is a top view of the dispenser-container assembly according to the present invention.

DETAILED DESCRIPTION

[0050] FIG. 1 shows a known dispenser-container in its rest configuration (i.e. in the configuration of not use).

[0051] The container comprises a substantially cylindrical vial which is closed on top by a ring nut (not shown) through which a pump is mounted. The pump is manually actuated by the user by pressing on the top. As a result of operating the pump, a predetermined amount of the substance is sucked from a straw within the vial and dispensed towards an outlet nozzle, typically arranged in axis with the vial. The outlet nozzle communicates with a channel section which is connected to the operation button and, in the configuration of use, communicates with a rigid cannula whose end is configured to atomize the sucked predetermined amount of substance.

[0052] In the rest configuration, the axis of the cannula is substantially parallel to the axis of the vial and is located next to the outer wall of the vial. In the configuration of use (not shown), the axis of the cannula is located substantially perpendicular to the axis of the vial. The passage from one configuration is made for the fact that the cannula is hinged to the button.

[0053] FIG. 2 is a schematic axonometric view of the dispenser-container assembly 10 according to one embodiment of the present invention. FIG. 3 is also an axonometric view of the assembly 10 of FIG. 2 but taken from a different angle and with the button removed.

[0054] The assembly 10 comprises a container 12 for containing the substance to be dispensed. Preferably, the container 12 has a section roughly rounded rectangular (FIG. 4B). In other embodiments, it could have an elliptical cross section, oval or the like. In any case, it is preferable that the cross section of the container 12 is not circular (acircular) with a major axis and a minor axis of different length. Preferably, the major axis is about twice the minor axis.

[0055] The shape of the assembly is also advantageous in that it allows to apply a rather large label on a generally planar surface. This is in contrast to a cilindrical surface with circular cross-section. For such a bottle, the label should be placed on the circular wall of the container and this is unconvenient for a user that has to read it. A more planar label is more readable and it is also advantageous for writing information in Braille or for any of a bar code, a QR code or the like.

[0056] Furthermore, the cross-section of the assembly of the present invention allows to store it in a breast pocket or the like. It will remain more stable in such a pocket and will project in a limited amount with respect to circular cross-sections.

[0057] Preferably, the section of the container 12 in the vicinity of its lower base 12a is lower and increases gently towards the upper base.

[0058] Preferably, as clearly visible in FIG. 4, the front side 10b of the assembly 10 (and thus also of the container 12) is substantially flat and is substantially perpendicular to the base 12a.

[0059] Preferably, still referring to FIG. 4, the back side 10f of the assembly 10 is substantially curved and forms an arc of a circle or the like. This shape is considered advantageous from the viewpoint of improving handling and ergonomics, as will become clear later.

[0060] In alternative embodiments, the front side 10f and back side 10b could both be substantially planar and perpendicular to the base or both curved arc of a circle.

[0061] The container 12 may be in any material, but is preferably in a thermoplastic material such as polyethylene, polyethylene terephthalate or the like and is obtained by molding.

[0062] The lower base 12a of the container is preferably flat. Preferably, the upper base 12b of the container ends with a screw neck for coupling to the container 12, a pump body 14, shown schematically in FIG. 5A. The pump body 14 is of a known type: comprises a suction pipe 141 open at the bottom and an actuating rod 142 connected to actuating button 16.

[0063] The dispensing container assembly 10 of the present invention preferably comprises a body 18 associable to the container 12 to provide an abutment and retaining means for the trigger button 16 both when the button 16 is pressed and when the button 16 is not urged. Preferably, the body 18 includes a member comprising two wings 18a and 18b which extend upwards. Preferably, the member follows a part of the contour of the container 12. View from the front, the two wings 18a, 18b are preferably separated by a slit for the cannula 20 which will be described later in this description. It should be remarked that thanks to the above shape, the cannula 20 is fully protected along its full length.ln its upper part, the dispenser-container assembly 10 comprises a pump trigger button 16. The button 16 is configured to cooperate with actuating rod 142 of the pump 14 and to perform a translation movement in the direction of the axis of the assembly 10. Preferably, the button 16 is retained by the two wings 18a, 18b of the body 18. Preferably, the button 16 is shaped substantially symmetrically with respect to the container 10.

[0064] In other embodiments, not shown, the essentially translational movement of the button can be obtained by providing a guide arrangement. Such guide arrangement can be made, for example, with a groove which extends longitudinally and which is made in the button (or in the body 18) and with a mating longitudinal projection in the body 18 (or in the button).

[0065] The body 18 and the container 12 are connected together in a stable manner. According to one embodiment, there are provided undercuts and corresponding engagements in the body 18 and/or in the container 12 members to provide said stable connection.

[0066] In other embodiments, the body 18 and the container 12 can be connected through gluing or welding, for example ultrasonic welding. In other embodiments, the body 18 and the container 12 are mutually connected through the threaded neck of the container 12.

[0067] The rod 142 of the pump 14 is preferably connected to a flexible tube inserted into a rigid cannula and which ends with one end configured to atomize a predetermined amount of the substance sucked through the pump.

[0068] According to the present invention, the assembly 10 comprises a housing 22 within which the cannula 20 can be safely held when the assembly is in its rest configuration or non-use configuration. Preferably, the housing 22 is in the form of a channel which extends substantially along an axis parallel to the longitudinal axis of the assembly 10. The channel 22 is formed in the button 16 as regards the upper part of the assembly 10 and into the container 12 as regards its lower part.

[0069] The channel 22 preferably has a greater depth in correspondence with the button 16 and a smaller depth along the height of the container 12.

[0070] Preferably, the channel 22 is closed (22a) at the base of the container 12a. In this way, the end of the cannula 20, configured to atomize, remains completely protected. Moreover, advantageously, this closure serves as a block and prevents the button 16 is pressed. Therefore, escaping of substance drawn by the pump 14 when the assembly 10 is in its rest position is prevented.

[0071] Preferably, the container also includes a gripping notch 12c which is provided for grasping the cannula 20 with the tip of the fingers, or the nails, of a hand and bring the cannula 20 outside of the housing 22. In other words, thanks to the gripping notch 12c , the cannula 20 can be rotated a few degrees and then, when at least the end of the cannula 20 is out of the housing 22, the rotation of the cannula is completed until the configuration of use (in which the cannula 20 is substantially perpendicular to the longitudinal axis of the assembly 10) is reached.

[0072] After use, the cannula 20 is moved back into the housing channel 22 by rotating the cannula downwardly.

[0073] As mentioned above, the container-dispenser according to the present invention is particularly practical, easy to handle and ergonomic.

[0074] First, the thickness (minor axis of the cross section) is less than the width (major axis of the cross section). This allows to grasp it firmly even by users with small hands, for example children or women. The user can grip the assembly 10 in such a way that the rear face (circular arc-shaped or otherwise curved) may be received in the palm of his hand and the front face (flat) is in contact with the phalanges of the fingers of the user's hand. In this way, the gripping is convenient and intuitive for the user.

[0075] The user can exert greater pressure force on the button because it uses less force to keep the assembly between the palm and fingers.

[0076] The upper surface of the button is broad. This allows it to be pressed smoothly and efficiently even by people with a large thumb.

[0077] Also, another advantage of the present invention is given by a more precise directionality. Once again, thanks to the tapered shape (or in any case to the shape which is not circular), the user is led to grip and retain the assembly in the sole and appropriate manner. In this way, the user does not run the risk that the cannula is incorrectly oriented. It should be noted in fact that when the cannula is placed in the mouth, the user does not see it. A user of a known dispenser is unable to understand how it is oriented. The greater certainty of the guidance of the cannula leads naturally to reach more precisely the target area within the oral cavity.

[0078] In any case, the main advantage of the present invention is constituted by the possibility to keep the whole cannula repaired (and in particular its end) when the assembly is not in use. This guarantees a better hygiene and avoids the risk of contamination. Moreover, it is virtually annulled the risk that the cannula from bending or breaking. It is also substantially canceled the risk that the tip from getting clogged by the presence of dust or hair.

[0079] Furthermore, the closed end of the channel 22 functions as a block and prevents the accidental activation of the pump when the assembly is in its configuration of non-use.

[0080] According to one embodiment, the container of the assembly is configured to hold about 15 ml of substance. According to another embodiment, the container of the assembly is configured to hold about 30 ml of substance. This substance may be a mouthwash or the like.

[0081] According to one embodiment of the invention, the container may have a front surface of about 20 mm and a side surface of about 40 mm. The overall height of the assembly can be about 60-65 mm and the housing channel of the cannula can have a length of about 60 mm.