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EP 0 291 251 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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09.09.1992 Bulletin 1992/37 |
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Date of filing: 06.05.1988 |
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International Patent Classification (IPC)5: B67D 3/02 |
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Liquid Dispenser
Flüssigkeitsspender
Distributeur de liquide
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Designated Contracting States: |
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AT BE CH DE ES FR GR IT LI LU NL SE |
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Priority: |
12.05.1987 GB 8711181
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Date of publication of application: |
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17.11.1988 Bulletin 1988/46 |
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Proprietor: Gaskell and Chambers Limited |
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Wigston, Leicester LE8 2FL (GB) |
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Inventor: |
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- Wallace, Kenneth John
Purley
Surrey (GB)
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Representative: Parnham, Kevin et al |
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IMI plc,
Patents & Licensing Department,
P.O Box 216,
Witton Birmingham B6 7BA Birmingham B6 7BA (GB) |
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References cited: :
FR-A- 2 406 811 GB-A- 2 173 477
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GB-A- 725 784 GB-A- 2 175 279
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] This invention relates to a liquid dispenser and, more particularly, to a liquid
dispenser for dispensing metered quantities of a liquid from an inverted bottle containing
a said liquid.
[0002] Such liquid dispensers are well known and a popular range of such dispensers is available
under the British Registered Trade Mark 'OPTIC' (No.470,373).
[0003] Although there have been many proposals to improve liquid dispensers, there is still
scope for further improvement, e.g. to meet proposed British and European legislation,
in particular with regard to effective sealing of the dispenser to ensure that 'run
through' cannot occur ('run through' being a continuous flow of liquid through the
dispenser as opposed to the dispense of a single aliquot of liquid).
[0004] A known type of liquid dispenser is illustrated in United Kingdom Patent Numbers
1577908, 1577909 and 1577910 (corresponding to French Patent Number 2406811). This
dispenser has two seal elements on a valve stem either side of the outlet however
these seal elements do not act in a transient relationship with a third seal to ensure
there is no egress of liquid prior to the inlet being sealed. Thus, there is the possiblity
of 'run-through'.
[0005] According to the present invention there is provided a liquid dispenser for dispensing
metered aliquots of a liquid, which dispenser comprises a chamber having an inlet
bore for liquid and an outlet bore for liquid, a valve in the chamber for controlling
dispense of liquid from the dispenser, and valve operating means, the valve having
first and second valve stems for reception respectively within said inlet bore and
within said outlet bore, characterised in that said first valve stem is provided with
sealing means for sealing said inlet bore, and said second valve stem being provided
with first, second and third resilient sealing means for sealing said outlet bore,
the arrangement being such that during movement of the valve from a position in which
said first resilient sealing means seals the chamber and said second and said third
sealing means seal about the outlet bore to a position in which liquid within the
chamber is free to flow through the outlet bore, said third resilient sealing means
also being arranged to confine the liquid to the outlet bore and the inlet bore is
sealed before a said flow of liquid can occur.
[0006] Preferably the said valve is resiliently biassed into said position in which it entirely
seals the outlet bore.
[0007] Preferably said valve operating means is secured to, or is integral with, said valve
and includes an internal bore communicating with said outlet bore of said chamber
via a transverse bore in said valve for dispense of a said liquid.
[0008] Preferably said sealing means on said first valve stem comprise primary resilient
sealing means for sealing said inlet bore and with auxiliary resilient sealing means
for sealing said inlet bore.
[0009] Preferably, said first and second resilient sealing means are arranged to seal the
outlet bore upstream of said transverse bore in said valve, said third resilient sealing
means preventing outflow of liquid through the outlet bore other than through said
transverse bore.
[0010] Generally the liquid dispenser of the present invention will include an air inlet
valve for permitting air to enter the chamber as liquid flows from the chamber. Preferably,
said air inlet valve is actuated by a radially extending flange provided on said valve.
[0011] Preferably said chamber is made from any suitable transparent material, such as polystyrene.
Further components of the liquid dispenser of the present invention are preferably
made from plastics mouldings, e.g. said valve may be made from acetal resin.
[0012] An embodiment of a liquid dispenser will now be described, by way of example only,
by reference to the accompanying drawings in which:
Fig. 1 shows a front elevation in partial section of an embodiment of a liquid dispenser
according to the present invention;
Fig. 2 shows a detail of the embodiment of liquid dispenser of Fig. 1.
Figure. 3 shows a further detail of the embodiment of liquid dispenser of Fig. 1.
[0013] Referring to Fig. 1 of the drawings, a liquid dispenser 1 comprises a chamber 2 for
holding liquid, a valve 3 within the chamber for selectively admitting liquid into
and releasing liquid from said chamber, and valve operating means 4. The dispenser
1 is provided with a liquid inlet 5 adapted to be received within the neck of an inverted
bottle (not shown) and sealed therewithin by means of an annular cork (Fig. 1). The
liquid inlet 5, which is longitudinally divided by a partition 6 to facilitate the
admission of air into the bottle and to help prevent the formation in the bottle of
a partial vacuum, is in communication with an inlet bore 7 of chamber 2. The chamber
2 also includes an outlet bore 8. Valve 3 is provided at its upper and lower ends
with valve stems 9, 10 respectively cooperating with inlet bore 7 and with outlet
bore 8 of the chamber 2.
[0014] Valve operating means 4 includes a pair of laterally extending members 11, 12 to
which axial pressure can be applied, by direct manual pressure or
via a glass held beneath the dispenser 1 and an axially extending outflow passage 13.
Adjacent the inner end 14, of valve operating means 4 there is provided a transverse
bore 15 communicating with outflow passage 13 and located so as to communicate also
with outlet bore 8 of chamber 2. Said inner end 14 of valve operating means is secured
to the valve stem 10 of valve 3 so that valve 3 moves unitarily with valve operating
means 4.
[0015] The valve stem 9 of valve 3 is provided with primary sealing means in the form an
elastomeric silicone polymer O-ring 16 adapted to seal the inlet bore 7 of chamber
2 to prevent ingress of liquid into chamber 2, when valve stem 9 is moved into inlet
bore 7. Valve stem 9 is also provided with auxiliary sealing means in the form of
a radially extending flange 17 having a radially extending planar sealing surface
18, for sealing with a flat 19 provided on the ceiling or upper surface 19
a of chamber 2. An air inlet valve 20 is provided in said surface 19
a, biassed to a closed state, at a position such that it can be opened by said radially
extending flange 17 to admit air into chamber 2 to replace liquid passing from chamber
2 through bore 15 and outflow passage 13 of valve operating means 4.
[0016] Valve stem 10 is provided with a groove 21 in which is seated an elastomeric silicone
polymer O-ring 22 for sealing outlet bore 8 of chamber 2. The inner end 14 of valve
operating means is provided with a pair of spaced elastomeric silicone polymer O-rings
23, 24 located one on each side of transverse bore 15 of valve operating means 4 to
seal with outlet bore 8 of chamber 2.
[0017] The assembly of valve 3 and valve operating means 4 is biassed into a position in
which outlet 8 of chamber 2 is closed, by means of a coil spring 25.
[0018] In use, in a rest position, inlet bore 7 of chamber 2 is open and liquid can flow
into chamber 2 and outlet bore 8 is closed. Upon axial movement of valve operating
means 4, valve 3 moves within chamber 2 and primary O-ring seal 16 seals inlet bore
7. Continued axial movement of valve 3 in the same direction thereafter causes O-ring
seal 23 to leave outlet bore 8, thus allowing liquid within chamber 2 to flow through
bores 15 and 13 of valve operating means 4. Auxiliary sealing of inlet bore 7 is provided
by sealing surface 18 sealing with annulus 19 of chamber 2 and liquid is prevented
from leaving chamber 2 other than
via bore 15 by means of O-ring 24. Flange 17 acts upon air inlet valve 20 to allow ingress
of air into chamber 2.
[0019] It is to be noted that there are various pieces of written and unwritten legislation
which apply to spirit measures (for whisky, gin, rum and vodka) for use in licensed
premises in the United Kingdom. Amongst these is a requirement that substantially
the whole of the internal volume of the chamber for containing liquid to be dispensed
should be visible from outside the measure. Another requirement is that no air should
remain within the chamber when the measure is charged with liquid. In the past, air
has been conducted out of the chamber by providing an upwardly frustoconical ceiling
or upper surface in the chamber. However, in order for this to be effective, the upper
surface should be formed at an angle to the horizontal of, e.g., 20°. Such an angled
surface is likely to cause a part of the volume of the chamber to be visually obscured,
thus failing to comply with the first requirement mentioned above.
[0020] It has now been found that it is possible to solve the problem of air remaining within
the chamber, in a satisfactory fashion, by arranging that the flow of liquid into
the chamber be suitably slow.
[0021] A generally applicable solution to this problem is proposed in our copending patent
application of even date. An inlet for admitting liquid into a chamber of a liquid
measure and for permitting egress of air from within a said chamber is provided with
two generally semi-circular or D-section conduits, said conduits being of substantially
the same area and a said area being selected such that liquid flowing through a said
conduit into a said chamber does not cause the formation of air bubbles in any liquid
already within the chamber.
[0022] A suitable cross-sectional area for a said generally D-shaped conduit is 15± 1.5mm².
[0023] Referring to Figs 2 and 3 of the accompaning drawings, details of an embodiment of
such an inlet are shown, said inlet comprising a circular cross-section tube of inside
diameter 7mm, divided in half axially by a central partition of width 1.2mm. Such
an inlet has been found to be extremely effective in producing an air space-free liquid-filled
volume within a said chamber of a liquid dispenser.
[0024] The liquid dispenser of the present invention provides a reliable, accurate and convenient
means of dispensing metered aliquots of liquid. Run through of liquid is substantially
prevented, whilst the dispenser is able to cope satisfactorily with pressure exerted
upon the valve operating means off its central axis of movement. The liquid chamber
may be entirely transparent to allow for inspection of substantially the whole of
the chamber contents. Additionally, a coil spring used to bias the valve into a rest
position within the chamber can be kept out of contact with the liquid within the
chamber, due to the presence of said third sealing means. Moreover, the inlet may
be arranged to provide for the effective expulsion of air from within the chamber
in a simple and satisfactory manner.
[0025] The invention may be performed otherwise than as has been particulary described and
the invention includes within its scope all such changes and modifications as would
be apparent to one skilled in the art.
1. A liquid dispenser (1) for dispensing metered aliquots of a liquid, which dispenser
(1) comprises a chamber (2) having an inlet bore (7) for liquid and an outlet bore
(8) for liquid, a valve (3) in the chamber (2) for controlling dispense of liquid
from the dispenser (1), and valve operating means (4), the valve (3) having first
and second valve stems (9, 10) for reception respectively within said inlet bore (7)
and within said outlet bore (8), characterised in that said first valve stem (9) is
provided with sealing means (16) for sealing said inlet bore (7), and said second
valve stem being provided with first, second and third resilient sealing means (22,23,24)
for sealing said outlet bore, the arrangement being such that during movement of the
valve (3) from a position in which said first resilient sealing means (22) seals the
chamber and said second (23) and said third (24) sealing and means seal about the
outlet bore (8) to a position in which liquid within the chamber (2) is free to flow
through the outlet bore (8), said third resilient sealing means (24) also being arranged
to confine the liquid to the outlet bore (8) and the inlet bore (7) is sealed before
a said flow of liquid can occur.
2. A liquid dispenser according to claim 1, wherein said valve (3) is resiliently biased
into said position in which it entirely seals the outlet bore (8).
3. A liquid dispenser according to claim 1 or 2, wherin said valve operating means (4)
is secured to, or is integral with, said valve (3) and includes an internal bore (13)
communicating with said outlet bore (8) of said chamber (2) via a transverse bore
(15) in said valve (3) for dispense of a said liquid.
4. A liquid dispenser according to any one of the preceding claims, wherein said sealing
means (16) on said first valve stem (9) comprise primary resilient sealing means (16)
for sealing said inlet bore (7) and auxilary resilient sealing means (17) for sealing
said inlet bore (7).
5. A liquid dispenser according to claim 3, wherein said first and second resilient sealing
(22, 23) means are arranged to seal the outlet bore (8) upstream of said transverse
bore (15) in said valve (3), said third resilient sealing means (24) preventing outflow
of liquid through the outlet bore (8) other than through said transverse bore (15).
6. A liquid dispenser according to any one of the preceding claims, wherein said valve
(3) includes a radially extending flange (17) and wherein the liquid dispenser (1)
includes an air inlet valve (20) arranged to be actuated by said radially extending
flange (17).
7. A liquid dispenser according to any one of the preceding claims, wherein said chamber
(2) is at least partially composed of transparent polystyrene.
8. A liquid dispenser according to any one of the preceding claims, wherein said valve
(3) is composed of acetal resin.
1. Flüssigkeitsausgabegerät (1) zum Abgeben eines abgemessenen Anteils einer Flüssigkeit,
das folgendes aufweist: eine Kammer (2) mit einer Einlaßbohrung (7) für Flüssigkeit
und einer Auslaßbohrung (8) für Flüssigkeit, ein Ventil (3) in der Kammer (2), um
die Abgabe von Flüssigkeit aus dem Ausgabegerät (1) zu steuern und eine Ventilbedienungseinrichtung
(4), wobei das Ventil (3) einen ersten und einen zweiten Ventilschaft (9, 10) zur
Aufnahme innerhalb der Einlaßbohrung (7) bzw. innerhalb der Auslaßbohrung (8) hat,
dadurch gekennzeichnet, daß der erste Ventilschaft (9) mit einer Dichteinrichtung
(16) zum Abdichten der Einlaßbohrung (7) versehen ist und der zweite Ventilschaft
mit einer ersten, zweiten und einer dritten elastischen Dichteinrichtung (22, 23,
24) versehen ist, um die Auslaßbohrung abzudichten, wobei die Anordnung so ist, daß
während der Bewegung des Ventils (3) von einer Position, in der die erste elastische
Dichteinrichtung (22) die Kammer abdichtet und die zweite (23) und die dritte (24)
Dichteinrichtung um die Auslaßbohrung (8) abdichtet, in eine Position, in der Flüssigkeit
innerhalb der Kammer (2) frei durch die Auslaßbohrung (8) fließen kann, die dritte
elastische Dichteinrichtung (24) ebenfalls so angeordnet ist, daß sie die Flüssigkeit
in der Auslaßbohrung (8) einschließt und die Einlaßbohrung (7) abgedichtet ist, bevor
ein solcher Flüssigkeitfluß auftreten kann.
2. Flüssigkeitsausgabegerät nach Anspruch 1, bei dem das Ventil (3) elastisch in die
Position gedrückt wird, in der es die Auslaßbohrung (8) vollständig abdichtet.
3. Flüssigkeitsausgabegerät nach Anspruch 1 oder 2, bei dem die Ventilbedieneinrichtung
(4) an dem Ventil (3) befestigt ist oder mit ihm aus einem Stück besteht und eine
Innenbohrung (13) enthält, die mit der Auslaßbohrung (8) der Kammer (2) über eine
Querbohrung (15) in dem Ventil (3) in Verbindung steht, um die Flüssigkeit abzugeben.
4. Flüssigkeitsausgabegerät nach einem der vorhergehenden Ansprüche, bei dem die Dichteinrichtung
(16) auf dem ersten Ventilschaft (9) eine elastische Hauptdichteinrichtung (16) zum
Abdichten der Einlaßbohrung (7) und eine elastische Hilfsdichteinrichtung (17) zum
Abdichten der Einlaßbohrung (7) aufweist.
5. Flüssigkeitsausgabegerät nach Anspruch 3, bei dem die erste und zweite elastische
Dichteinrichtung (22, 23) angeordnet sind, um die Auslaßbohrung (8) stromaufwärts
von der Querbohrung (15) in dem Ventil (3) abzudichten, wobei die dritte elastische
Dichteinrichtung (24) einen anderen Ausfluß von Flüssigkeit durch die Auslaßbohrung
(8) als durch die Querbohrung (15) verhindert.
6. Flüssigkeitsausgabegerät nach einem der vorhergehenden Ansprüche, bei dem das Ventil
(3) einen sich radial erstreckenden Flansch (17) enthält und bei dem das Flüssigkeitsausgabegerät
(1) ein Lufteinlaßventil (20) enthält, das angeordnet ist, um vom sich radial erstreckenden
Flansch (17) bedient zu werden.
7. Flüssigkeitsausgabegerät nach einem der vorhergehenden Ansprüche, bei dem die Kammer
(2) mindestens zum Teil aus transparentem Polystyren besteht.
8. Flüssigkeitsausgabegerät nach einem der vorhergehenden Ansprüche, bei dem das Ventil
(3) aus Acetalharz besteht.
1. Distributeur (1) de liquide destiné à distribuer des portions aliquotes dosées d'un
liquide, lequel distributeur (1) comporte une chambre (2) ayant une lumière d'entrée
(7) pour un liquide et une lumière de sortie (8) pour le liquide, une soupape (3)
dans la chambre (2) destinée à commander la distribution de liquide depuis le distributeur
(1), et un moyen (4) d'actionnement de soupape, la soupape (3) ayant des première
et seconde tiges (9, 10) de soupape destinées à être reçues, respectivement, dans
ladite lumière d'entrée (7) et dans ladite lumière de sortie (8), caractérisé en ce
que ladite première tige (9) de soupape est pourvue d'un moyen (16) d'étanchéité destiné
à obturer de façon étanche ladite lumière (7) d'entrée, et ladite seconde tige de
soupape est pourvue de premier, deuxième et troisième moyens élastiques (22, 23, 24)
d'étanchéité destinés à obturer de façon étanche ladite lumière de sortie, l'agencement
étant tel que, pendant un mouvement de la soupape (3) depuis une position dans laquelle
ledit premier moyen élastique (22) d'étanchéité obture de façon étanche la chambre
et lesdits deuxième (23) et troisième (24) moyens d'étanchéité réalisent une obturation
étanche autour de la lumière (8) de sortie, jusqu'à une position dans laquelle du
liquide se trouvant dans la chambre (2) peut s'écouler librement par la lumière (8)
de sortie, ledit troisième moyen élastique (24) d'étanchéité étant également agencé
de façon à confiner le liquide à la lumière (8) de sortie et la lumière (7) d'entrée
est obturée de façon étanche avant que ledit écoulement de liquide puisse se produire.
2. Distributeur de liquide selon la revendication 1, dans lequel ladite soupape (3) est
rappelée élastiquement dans ladite position dans laquelle elle obture entièrement
de façon étanche la lumière (8) de sortie.
3. Distributeur de liquide selon la revendication 1 ou 2, dans lequel ledit moyen (4)
d'actionnement de soupape est fixé à, ou réalisé d'une seule piece avec, ladite soupape
(3) et comprend une lumière intérieure (13) communiquant avec ladite lumière (8) de
sortie de ladite chambre (2) par l'intermédiaire d'une lumière transversale (15) dans
ladite soupape (3) pour distribuer ledit liquide.
4. Distributeur de liquide selon l'une quelconque des revendications précédentes, dans
lequel ledit moyen (16) d'étanchéité situé sur ladite première tige (9) de soupape
comprend un moyen élastique principal (16) d'étanchéité destiné à obturer de façon
étanche ladite lumière (7) d'entrée et un moyen élastique auxiliaire (17) d'étanchéité
destiné à obturer de façon étanche ladite lumière (7) d'entrée.
5. Distributeur de liquide selon la revendication 3, dans lequel lesdits premier et deuxième
moyens élastiques (22, 23) d'étanchéité sont agencés de façon à obturer de manière
étanche la lumière (8) de sortie en amont de ladite lumière transversale (15) dans
ladite soupape (3), ledit troisième moyen élastique (24) d'étanchéité empêchant le
liquide de s'écouler par la lumière (8) de sortie autrement qu'en passant par ladite
lumière transversale (15).
6. Distributeur de liquide selon l'une quelconque des revendications précédentes, dans
lequel ladite soupape (3) comporte une collerette (17) s'étendant radialement et dans
lequel le distributeur (1) de liquide comprend une soupape (20) d'entrée d'air agencée
de façon à être actionnée par ladite collerette (17) s'étendant radialement.
7. Distributeur de liquide selon l'une quelconque des revendications précédentes, dans
lequel ladite chambre (2) est composée au moins partiellement de polystyrène transparent.
8. Distributeur de liquide selon l'une quelconque des revendications précédentes, dans
lequel ladite soupape (3) est composée d'une résine acétal.