JP2006502054A - Fluid dispenser - Google Patents

Abstract

A fluid dispenser for dispensing liquid or powdered fluid, said dispenser comprising a reservoir (17) with at least one deformable drive wall (2) and a dispensing opening (14); The dispenser has a body (1) forming a frame (10), the thickness of the frame being defined to create an inscribed space (Vi) of a defined volume, and the drive wall (2) is Extending over the frame (10) and deforming it can reduce the volume of the reservoir, and further advance into the inscribed space, the dispenser is a pause that defines the maximum volume of the reservoir It has return spring means (16) that pushes back the drive wall (2) to the shape, and the feature is that the spring means (16) is formed integrally with the main body (1). Dispenser.

Description

  The present invention relates to a fluid dispenser for dispensing a liquid or powdered fluid.

The fluid dispenser according to the present invention has a reservoir with one or more deformable drive walls and a dispensing opening. Thus, when the drive wall is depressed, the internal volume of the reservoir is reduced and fluid is delivered through the dosing opening. Such dispensers can be used for the administration of liquids and powders in the field of perfumes, cosmetics and even pharmaceuticals.
There are many types of dispensers in the prior art that use the deformability of a portion of the reservoir to apply pressure to the fluid stored in the reservoir, thereby delivering the fluid from the dispensing opening. For example, reference can be made to the patent document FR 2 791 645, which includes a dispenser in the form of two flexible sheets joined together over the periphery to form a reservoir. It is disclosed. Moreover, as a preferable configuration, a hard administration part is inserted between two sheets, and it is effective to form an administration opening in the administration part. In addition, a spring may be disposed between the two sheets to perform the elastic return function. In this document, a configuration is provided in which the dosing opening is sealed while the spring is in a fully compressed state. The fluid dispenser thus obtained is particularly flat and thin and can be placed, for example, as a free sample in a magazine.

  The problem with such prior art dispensers is that the spring is fully compressed for a relatively long period of time (ie, from manufacturing to use). Experience has shown that a spring made of a plastic material can no longer be loosened after a certain amount of time has passed while it is held in its most compressed form. This is because the plastic material has a tendency to creep over time. Alternatively, if the spring is made of metal, the fluid to be administered will be in contact with the metal for an extended period of time. Depending on the fluid being administered, this can be inconvenient or even harmful. Therefore, there is definitely a problem with the return springs of these types of dispensers.

  The object of the present invention is to eliminate the above-mentioned problems associated with the prior art, and to this end, it is a relatively flat and thin dispenser, and the spring means it has also has its pressure applied to the dispenser in a laid state. Even if applied, the dispenser is defined such that the degree of compression is very light or not compressed. For example, if the dispenser is placed in a magazine, the risk of the spring means being strongly compressed must be eliminated.

  To achieve this object, the fluid dispenser provided by the present invention further comprises a body forming a frame, the thickness of the frame being defined to create a defined volume of inscribed space, The drive wall extends over the frame and can be deformed to reduce the volume of the reservoir and further advance into the interior space.

With such a configuration, the operating volume of the reservoir is less than the inscribed volume defined by the frame thickness, even when the dispenser is placed between two substantially flat surfaces and pressure is applied to the two surfaces. There is no danger of becoming smaller.
Also, in the present invention, the dispenser includes return spring means that pushes the drive wall back to a resting shape that defines the maximum volume of the reservoir. Thus, it is effective that the spring means are formed in an integrated manner on the body which itself already forms the body. The main body can be made of, for example, a plastic material.

  Further, as an effective feature of the present invention, the spring means extends inside the frame. In the rest position, the spring means may extend inside the inscribed space. However, in a modification, the spring means at the rest position extends outside the inscribed space. When the spring means extends inside the inscribed space and in the rest position, no pressure is applied from the spring means to the drive wall. Only after the wall has been pressed will the spring means act to return the drive wall to the rest position. Conversely, if the spring means extends outside the inscribed space, the spring means applies pressure to the drive wall even in the rest position. As a result of this, the drive wall is swollen at a position where the spring means contacts the wall.

In a practical embodiment, the spring means may have one or more flexible blades extending across the frame. Further, for example, the frame may have a certain thickness in a range of about 2 mm to 4 mm.
Furthermore, as a practical embodiment, the dispenser further comprises two drive walls, which are formed into two flexible sheets fixed in a leak-proof manner on each side of the frame. It may be that.

As another feature, the frame is not substantially deformed. In this way, the return spring function is completely realized by the spring means, and the frame is not involved.
Also, as a practical embodiment, the frame is substantially ring shaped.
Further, as one feature, it is assumed that the administration opening is formed in the frame, and the position thereof is effective on the peripheral surface of the frame.

The present invention will be described in more detail with reference to the accompanying drawings showing embodiments of the present invention as non-limiting examples in the following portions.
Here, the fluid dispenser used in the description of the present invention comprises three components: a main body 1 and two flexible sheets. Further, as an arbitrary configuration, the dispenser may further include a porous material part.

  The main body 1 has a frame 10 which is preferably non-deformable and forms a closed loop. The frame in the example shown here is substantially circular, but may be polygonal (for example, triangular, quadrangular, pentagonal, hexagonal, etc.). An administration head 13 is formed on the frame 10, and the head is integrated with the frame. In the example shown in the drawing, the frame 10 is no longer circular due to the head 13 and is given a drop-like appearance. However, it is considered that the head 13 is a part of the frame 10 and is integrated therewith. Thus, the frame 10 in this example is formed with a peripheral surface 11 that is substantially cylindrical. The frame 10 is further formed with two edges 12 that are substantially flat but have an annular shape. For example, each edge 12 may be provided with an adhesive bead 121, and the bead may be formed with a projection extending over the entire periphery of the frame 10. This configuration can be seen in FIG. The dosing head 13 is shaped with a dosing opening 14 which establishes communication between the inside of the frame and the outside of the frame. The administration opening is open in the peripheral surface 11. This is more apparent from FIGS. In addition, the dosing head 13 is formed with an insertion member recess 15 as an arbitrary configuration, and the recess is intended to accommodate the porous material component 3 as an optional configuration. In addition, about the component 3, you may make it the shape provided with the appendage 34 for insertion designed so that it might be inserted in the recess 15 by force fitting as an effective structure. As a result, the porous material component 3 freely extends from the attachment 34 to the inside of the frame 11 to form the main body 31. The main body 31 is naturally made of a porous material. ing. The purpose of the porous material part 3 is to inhale or impregnate a liquid or powdered fluid so that fluid is supplied to the dosing opening 14 at any time. Naturally, depending on the application, the porous material component 3 can be omitted. Specifically, this is the case of powdered fluid.

  The thickness of the frame 11 is defined in a form corresponding to the height of the peripheral wall 11. In the example used in connection with the present invention, the thickness is constant over the entire circumference of the frame 11. However, it is also conceivable to locally change the thickness. The main body 10 is not deformed at least in the thickness direction of the frame 11. In other words, the thickness of the frame 11 cannot decrease or change even when subjected to strong pressure. Conversely, the frame 11 can be deformed in its width direction, whereby the loop or ring is slightly deformed. However, it is preferable that the ring is not deformed. With this configuration, the frame 11 forms an inscribed internal space, and its volume Vi is equal to the result of multiplying the area inside the frame 11 by the thickness of the frame 11. This corresponds to the volume of the frame with two completely flat surfaces. Since the thickness of the frame does not change or decrease, the volume Vi of the inscribed space is constant and defined in advance.

  The main body 10 may be formed with return spring means in an integrated form. The return spring means in the example shown here is in the form of two flexible blades extending across the interior of the frame 11. As shown in FIG. 4, the two blades 16 may be inscribed so as to be entirely inside the space Vi. However, as a modified example, as shown in FIG. 5, the blade 16 may extend at least partially outside the space Vi.

  The main body 1 in the present invention is combined with two flexible sheets that are installed and fixed in a leak-proof manner on each side of the frame 11. The two sheets are preferably heat-sealed and bonded to one of the adhesive beads 121 formed on the two edges 12 of the frame 11 at the periphery. In practice, one container is first bonded to the frame 11 to form a container. From there, fluid can be placed into the container. Thereafter, the other sheet need only be adhered and the container sealed, thereby completing the reservoir 17. 4 and 5, the volume Vi of the inscribed space does not match the internal volume of the reservoir 17. In FIG. 4, when the dispenser is in the rest position, the volume Vi and the internal volume of the reservoir 17 are equal. On the other hand, as soon as the sheet 2 is pressed and brought into contact, the blade 16 is deformed and the internal volume of the reservoir 17 is reduced, and thus the internal space volume Vi is reduced. In FIG. 5, the internal volume of the reservoir 17 is larger than the inscribed space volume Vi at the rest position because the blade 16 is out of the space Vi at the rest position. The volume of the reservoir 17 becomes equal to the volume of the space Vi, for example, when the dispenser is placed between two flat surfaces, and a force is exerted on the blade 16 to push them back into the space Vi. Only. This state is the same as that of the shape shown in FIG. 4 except that the blade 16 is partially subjected to pressure.

  In any case, regardless of whether or not the blade 16 is housed in the space Vi, a dispenser can be obtained in which the volume of the inscribed space is constant and determined. Therefore, if the container 17 is filled with a volume of fluid equal to or less than the volume Vi, the dispenser can be placed between two flat surfaces such as inserted into a magazine and stacked. Is guaranteed not to be subjected to excessive pressure. Furthermore, it is ensured that the spring means 16 are not overcompressed. Therefore, even when the dispenser is used after a long period of manufacture, correct operation of the spring means is ensured. Of course, when the dispenser is used, the volume of the reservoir 17 is smaller than the volume Vi. This is because the sheet 2 can be deformed and the blade 16 is flexible. It is also possible for the blade 16 to reach a shape in which it extends substantially the same plane as the seat 2 and they are pressed against either side. However, as soon as the pressure applied to the seat 2 is released, they are almost returned to the rest position by the action of the blades 16 loosening.

  According to the present invention, it is possible to obtain a dispenser that is very thin and flat and does not deform, and that the spring means of any configuration need not be compressed during storage.

It is a perspective view which shows the fluid dispenser of this invention. It is an exploded view of the dispenser shown in FIG. It is a horizontal direction sectional view of the dispenser shown in FIG. FIG. 2 is a vertical sectional view of the dispenser shown in FIG. 1. It is a figure similar to FIG. 4, and is a figure which shows the modification of the dispenser of this invention.

Claims (10)

A fluid dispenser for dispensing liquid or powdered fluid,
The dispenser has a reservoir (17) with at least one deformable drive wall (2) and a dispensing opening (14);
The dispenser has a body (1) that forms a frame (10), the thickness of the frame being defined to create an inscribed space (Vi) of a defined volume;
The drive wall (2) extends over the frame (10) and can be deformed to reduce the volume of the reservoir, and further advance into the inscribed space,
The dispenser has return spring means (16) that pushes back the drive wall (2) to a resting shape that defines the maximum volume of the reservoir;
The feature is
The spring means (16) is formed integrally with the body (1),
Said dispenser. The spring means (16) extend within the frame (10);
The dispenser according to claim 1. In the rest position, the spring means (16) extend inside the inscribed space (Vi),
The dispenser according to claim 1 or 2. In the rest position, the spring means (16) extends outside the inscribed space (Vi),
The dispenser according to any one of claims 1 to 3. The spring means comprises one or more flexible blades (16) extending across the frame (10);
The dispenser according to any one of claims 1 to 6. The frame (10) has a constant thickness in the range of about 2 mm to 4 mm;
The dispenser according to any one of claims 1 to 5. Further comprising two drive walls, the drive walls being formed into two flexible sheets (2) fixed in a leak-proof manner on each side of the frame (10);
The dispenser according to any one of claims 1 to 6. The frame (10) does not substantially deform,
The dispenser according to any one of claims 1 to 7. The frame is essentially in the shape of a ring,
The dispenser according to any one of claims 1 to 8. The administration opening (14) is formed in the frame (10), and it is effective that the position is the peripheral surface (11) of the frame,
The dispenser according to any one of claims 1 to 9.

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