Dispensing – With discharge assistant – Fluid pressure
Reexamination Certificate
2001-07-16
2002-04-23
Derakshani, Philippe (Department: 3754)
Dispensing
With discharge assistant
Fluid pressure
C222S402240, C222S402250
Reexamination Certificate
active
06375049
ABSTRACT:
DESCRIPTION
The invention relates to a valve for dispensing pressurized fluids according to the precharacterizing clause of claim
1
.
The present case is concerned in particular with valves in an aerosol can. Apart from the contents and the container, the valve is the most important component of this sort of packaging: for the product to be usable at all times and in all circumstances, the valve must function perfectly. Even when the can has been stored for a relatively long time, the valve must deliver the product when first activated, faultlessly and in the predetermined spray pattern. Otherwise the entire package, including the contents, is useless.
Customarily valves designed for aerosol cans comprise a valve body, a delivery tube and a sealing ring. The valve body can be fixed in a fluid-tight manner to the edge of a lid aperture, disposed in a lid as an opening of the container. The delivery tube is disposed in the valve body so as to be axially displaceable and can be moved out of a closed position against the action of an elastic element, in particular a coiled compression spring. The sealing ring is situated between the edge of the lid aperture and the valve body, so that it encloses the delivery tube tightly. The sealing ring consists of a flexible sealing material, preferably rubber or the like. Within the delivery tube is a discharge channel with a lateral opening, in particular a bore, which in the closed position is blocked at its outer end by the sealing ring. When the delivery tube is pressed into the interior of the container, against the action of the elastic element, the lateral opening or bore is freed from the sealing ring so that a pressurized medium within the container can escape to the exterior through the valve body, the lateral bore and the discharge channel of the delivery tube.
FIG. 3
shows a valve according to the state of the art, in longitudinal section. The valve is mounted on a lid
11
, which can be used to close a corresponding opening of a container (not shown) for a pressurized medium. The lid
11
comprises a central aperture
12
to receive a delivery tube
13
, which at its end towards the interior of the container extends into a valve body
15
. The interior of the valve body
15
is in fluid communication with the interior of the container by way of an ascending pipe. The valve body
15
is fixed to the edge
16
of the lid aperture
12
in a fluid-tight manner. For this purpose the valve body
15
comprises a circumferential flange that extends radially outward, which in the assembled state overlaps an annular extension of the lid
11
that projects radially inward, so that the valve body
15
is clamped against the lid
11
. Between the edge
16
of the lid aperture
12
and the circumferential flange of the valve body
15
a flat sealing ring
20
is disposed in such a way that it closely encloses the delivery tube
13
. The sealing ring
20
consists of a flexible, corrosion-resistant material. The delivery tube
13
is mounted in the valve body
15
so that it is axially displaceable, and can be moved away from a closed position shown in
FIG. 3
against the action of a coiled compression spring.
Within the delivery tube
13
is a discharge channel
25
, which extends in the direction parallel to the median long axis of the tube
13
and is open to the exterior but closed at its inner end. A passageway
24
extending perpendicular to the discharge channel
25
connects the latter to the outer surface of the delivery tube at a level that is the same as the level of the sealing ring
20
when the apparatus is in the closed position. The sealing ring
20
thus blocks the outer opening of the passageway
24
in the closed position. When the delivery tube
13
is axially displaced into the interior of the container, the outer opening of the passageway
24
is moved into a position such that it is no longer blocked by the sealing ring
20
. Thus a fluid connection is produced between the interior of the valve body
15
and the discharge channel
25
.
The valve representing the state of the art shown in
FIG. 3
, however, has the disadvantage that when the delivery tube
13
is pressed inward, the elastic sealing ring
20
can be dragged along into the interior. The consequence is that the opening of the passageway
24
becomes freed from the sealing ring
20
later than expected. The delivery tube
13
must therefore be pressed relatively far down, i.e. into the interior of the container, in order to create the communication between the interior of the container and the discharge channel
25
by way of the passageway
24
. As a result of the displacement of the seal and the sharp-edged construction of the passageway opening, the sealing material can become damaged and parts of it may even be cut off, which impairs the function of the valve and shortens its working life.
The subject matter of the German patent application P 198 26 308.2 filed by the same applicant (filing date Jun. 12, 1998) was proposed to eliminate the disadvantages of the state of the art described above, in that the passageway that opens into the discharge channel is formed by a slanted bore running from outside to inside to the interior of the container, so disposed that its outer opening is at least partially below the plane defined by the upper circumferential edge of the annular projection that extends towards the seal. As a result, the outer end of the passageway is at least not completely blocked by the sealing ring. The fluid communication between discharge channel and container is created as soon as the annular flange becomes separated only slightly from the sealing ring. This occurs suddenly when the delivery tube is depressed by only a small distance.
But as long as the outer end of the passageway is blocked at least partially, even though not completely, by the sealing ring, the problems described above (dragging the ring along and damage to the sealing material) cannot be entirely eliminated.
An advantageous embodiment of P 198 26 308.2 provides for the outer opening of the slanted bore to be situated below the plane defined by the upper circumferential edge of the annular projection extending towards the sealing ring. However, this embodiment demands precise machining and fitting of the valve into the lid of the aerosol container; furthermore, in this case because the outer opening of the passageway is always unblocked, the annular projection must always abut precisely against the sealing ring, and even a slight, unintentional axial displacement of the delivery tube can cause an undesired discharge.
The objective of the present invention is to provide a valve for dispensing pressurized fluids with which the problems presented above can be largely avoided, and with which closely reproducible dosages can be reliably delivered.
This objective is achieved by the present invention.
The subject matter of the invention is a valve according to Claim
1
to dispense pressurized fluids, foams, gels or the like, with a valve body that can be fixed in a fluid-tight manner at the edge of a lid aperture within a lid for a container opening, a delivery tube that is mounted in the valve body so as to be axially displaceable and movable out of a closed position against the action of an elastic element, in particular a coiled compression spring, and a sealing ring made of rubber or similar flexible sealing material and disposed between the edge of the lid aperture and the valve body so that it closely encloses the delivery tube. The arrangement is such that when the delivery tube or valve is in the closed position, the sealing ring blocks a discharge channel formed within the delivery tube in a fluid-tight manner. The delivery tube here comprises an annular flange with an annular projection extending towards the sealing ring to produce a fluid seal between sealing ring and discharge channel in the delivery tube, such that the fluid connection to the discharge channel of the delivery tube is formed by a passageway situated in the delivery tube and opening into the disc
Andrus Sceales, Starke & Sawall
Bui Thach H.
Coster Tecnologie Speciali S.p.A.
Derakshani Philippe
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