[0001] The invention concerns a dispenser head for dispensing liquids under pressure from
a container, such as a keg of beer, and comprising a housing which may be detachably
connected with the container valve, a spindle vertically slidable in the housing to
active said valve, and an operating handle pivotally journalled on the housing to
move the spindle, said operating handle being pivotable between a first position in
which the valve is closed and a second position in which the valve is open and comprising
a locking pin preferably slidable in the longitudinal direction of the handle and
a spring or a similar means serving to press the locking pin toward the housing and
to cause said pin to engage a locking groove in said housing when the handle is in
its second position.
[0002] In dispensing arrangements of this type the operating handle is in its second position
subjected to the force from a strong spring, which is arranged in the valve and serves
to close it when dispensing from the container is discontinued. This force is absorbed
in the engagement between the locking pin and the locking groove, so that the handle
remains in its second position and keeps the valve open. When the valve is to be closed
again, the locking pin must first be withdrawn from the locking groove, and for this
purpose the heretofore known dispenser heads have an operating handle with an outer
axially slidable handle grip which is connected with the end of the locking pin. However,
the hand hereby follows a path which is directly at right angles to the path which
the handle described during closing, and this may cause an unexpected and unpleasant
stroke in the hand when the engagement is released and the handle therefore suddenly
snaps into its first position under the action of the strong spring. Further, when
the handle grip is pulled outwardly, a slot will be formed between its innermost end
and the handle in which the fingers may get caught when the hand grip is released.
An additional drawback is that it is not readily apparent to an operator that he is
to pull outwardly in a direction perpendicular to the closing direction to close the
valve, and therefore it happens that it is attempted to close the valve by pulling
the handle in its closing direction proper, but then the locking mechanism may be
deformed so much that the engagement can no longer be released, and the dispenser
head cannot be removed since the valve is still open.
[0003] It is therefore required to provide a dispenser head of the type mentioned in the
opening paragraph, which has an operating handle which is safer, simpler and more
convenient to operate than before, and which cannot unintentionally be damaged during
the closing movement.
[0004] This is achieved in that the dispenser head of the invention is characterized in
that the handle further comprises a hand grip which, in said second handle position,
can move with respect to the handle in the same or approximately the same direction
as the handle pivots when moving from its first to its second position, and that the
hand grip is connected with the locking pin by connecting means arranged such that
said relative pivoting movement between the hand grip and the handle is converted
into such a great axial displacement of the locking pin away from the locking groove
that the engagement of said locking pin with the locking groove is released. The hand
will thus logically follow the same path upon release of the locking arrangement as
the handle describes during closing from its second to its first position, or in other
words, release of the locking engagement and closing of the handle takes place in
one and the same continuous movement of the hand.
[0005] Preferably, the hand grip may be pivotally journalled on the handle about a preferably
horizontal axis. This provides for a particularly expedient mutual relative movement
between the hand grip and the handle.
[0006] The connecting means between the hand grip and the locking pin may be a toggle mechanism
preferably comprising a pivotable arm, and this pivotable arm may have its one end
pivotally journalled in the hand grip about a preferably horizontal axis, which is
disposed more closely to the housing than the outer end of the locking pin and suitable
spaced from its axis at the locking pin side facing away from the first handle position,
and the pivotable arm may have its other end connected with the locking pin by means
of a pivotable link which is spaced more from the housing than the pivot axis of the
pivotable arm. The pivot link may conveniently consist of a cross member which is
formed on the pivotable arm and which is supported by a breast member arranged at
the end of the locking pin, said locking pin extending with clearance through an opening
in the cross member. This results in a particularly simple and inexpensive structure
and entails that much less force is to be used for releasing the locking engagement
than known before.
[0007] Finally, it is preferable that the hand grip may be formed as a hollow jacket of
plastics or metal disposed substantially around the movable parts of the release mechanism.
This protects not only the movable parts of the release mechanism against damage because
of outer influences, but also the operator's hand against getting injured or jammed
by the mechanism.
[0008] The invention will be explained more fully below with reference to the drawings,
in which
fig. 1 shows an axial section through a dispenser head according to the invention,
mounted on a container, where only the top and the bottom are visible,
fig. 2 shows a section on a larger scale through an operating handle associated with
the dispenser head of fig. 1, and
fig. 3 is a partially sectional top view of the same.
[0009] Fig. 1 shows a dispenser head which is generally designated by 1 and which is detachably
coupled with a valve 2 which is secured in a flange 3 on a container 4 having a top
5 and a bottom 6. The central portion of the container is not shown. The dispenser
head 1 comprises a housing 7, a spindle 8 which is slidable up and down in the housing
7, and an operating handle which is generally designated by 9 and which serves to
move the spindle 8. The handle 9 is pivotally journalled about pivots 10 on the housing
1 and can pivot between a first position which is the upper one in the shown embodiment,
the handle being shown in broken lines, and a second position which is the lower one
where the handle is shown in solid lines.
[0010] In the shown exemplary embodiment, the container 4 is a keg of beer, and the dispenser
head serves to dispense the beer from it. The beer, which is not shown, is under pressure
from gaseous carbon dioxide which is fed through an inlet pipe stub 11 on the housing
1 from a cartridge or bottle (not shown). When the valve is open, as shown in fig.
1, the carbon dioxide flows, as indicated by the arrows, down into the container and
urges the beer, as also indicated by the arrows, up through a down pipe 12 associated
with the valve 2, through the hollow spindle 8 and further through a hose (not shown)
to the position of use.
[0011] The valve 2 has a strong compression spring 13 to close the valve when no beer is
to be dispensed. The force from the compression spring 13 is transferred via a valve
gasket 14 associated with the valve and the spindle 8 to the handle 9, which will
therefore try to pivot to its first position. To prevent this and to keep the valve
open, the handle has a locking pin 15 which is pressed into a locking groove 16 in
the housing 7 by a spring 17 when the handle is present in its second position.
[0012] When dispensing has been completed, the valve is closed again by moving the handle
back to its first position, the locking engagement between the locking pin 15 and
the locking groove 16 being released first. This release takes place by means of a
hand grip 8 which, in the embodiment shown; is pivotally journalled on the handle
9 about pivots 19, as shown best in figs. 2 and 3. When, in order to close the valve,
the operating handle is pulled up to pivot it to its original first position, the
engagement between the locking pin 15 and the locking groove 16 is automatically released
as the hand grip first pivots about the pivots 19 and thereby pulls the locking pin
out of the locking groove by connecting means, which connect the hand grip with the
locking pin and which are adapted such that the relative movement between the hand
grip 18 and the handle 19 is converted to an axial outwardly directed displacement
of the locking pin 15.
[0013] Figs. 2 and 3 show a preferred embodiment of the operating handle 9 where the connecting
means consist of a specially arranged toggle mechanism. This has a pivotable arm 20
which is pivotally journalled in the hand grip 18 about pivots 21, which are suitable
spaced below the locking pin 15 and suitable placed in a direction toward the housing
7 from the outermost end of the locking pin 15. The pivotable arm 20 is fork-shaped
with two flaps 22 which are pivotably journalled about their respective ones of the
pivots 21 arranged on the inner side of the hand grip 18. The two flaps 22 are interconnected
at the other end by a cross member 23 which is supported by a breast member 24 provided
on the end of the locking pin 15, which is passed through an opening 25 in the cross
member 23 with a suitable clearance.
[0014] When the operating handle 9 is in its second position and the handle is pulled upwardly
to close the valve 2, the hand grip 18 first pivots about the pivots 21 with respect
to the handle 9 proper since this is kept locked in its second position by the engagement
of the locking pin 15 with the locking groove 16. This locking movement causes the
pivots 21 of the pivotable arm 20 to be moved closer to the axis of the locking pin
15 and the cross member 23 of the pivotable arm to be pressed outwardly in the axial
direction of the locking pin as it is kept in position around the locking pin by means
of the opening 25. Since the cross member 23 engages the breast member 24, it simultaneously
carries the locking pin 15 along so that the pin 15 will be disengaged from the locking
groove 16. The force required for this is much smaller than the spring force of the
spring 17 and depends upon the angle formed by the flaps 22 of the pivotable arm with
the locking pin. The operating handle can therefore readily and conveniently be released
from its locked second position and be moved into its first position by one and the
same natural movement of the hand in the closing direction of the handle, and during
this movement there is no risk of unintentionally damaging the release mechanism.
[0015] The first position of the handle is shown in broken lines in fig. 1. On the housing
itself, an inclined face is provided over the locking groove 16, said face 26 extending
inwardly toward the axis of the housing so that the locking pin extends up this inclined
face 26 with its outermost end and thereby tensions the spring 17 when the handle
is pressed down to its second position. The valve can therefore be opened readily
merely by pressing the handle downwards until the locking pin snaps into engagement
with the locking groove.
[0016] In the embodiment shown in figs. 2 and 3, the hand grip is formed as a hollow jacket
18 moulded from e.g. plastics or metal in two halves which are assembled around the
handle e.g. by screws (not shown) so that the release mechanism of the handle is well
protected against external damage. The jacket 18 also protects the operator's hand
against getting injured or jammed by the release mechanism.
[0017] The invention is described in the foregoing and shown in the drawing with reference
to a preferred embodiment. However, many other embodiments and uses for the dispenser
head and operating handle of the invention are conceivable within the scope of the
invention.
1. A dispenser head for dispensing liquids under pressure from a container, such as
a keg of beer, and comprising a housing which may be detachably connected with the
container valve, a spindle vertically slidable in the housing to activate said valve,
and an operating handle pivotally journalled on the housing to move the spindle, said
operating handle being pivotable between a first position in which the valve is closed
and a second position in which the valve is open and comprising a locking pin preferably
slidable in the longitudinal direction of the handle and a spring or a similar means
serving to press the locking pin toward the housing and to cause said pin to engage
a locking groove in said housing when the handle is in its second position, characterized in that the handle further comprises a hand grip which, in said second handle position,
can move with respect to the handle in the same or approximately the same direction
as the handle pivots when moving from its first to its second position, and that the
hand grip itself is connected with the locking pin by connecting means arranged such
that said relative pivoting movement between the hand grip and the handle is converted
into such a great axial displacement of the locking pin away from the locking groove
that the engagement of said locking pin with the locking groove is released.
2. A dispenser head according to claim 1, characterized in that the handle is pivotally journalled on the handle about a preferably horizontal
axis.
3. A dispenser head according to claim 1 or 2, characterized in that the connecting means between the hand grip and the locking pin are a toggle
mechanism.
4. A dispenser head according to claim 3, characterized in that the toggle mechanism comprises a pivotable arm, and that the pivotable arm
has its one end pivotally journalled in the hand grip about a preferably horizontal
axis disposed more closely to the housing than the outer end of the locking pin and
suitably spaced from the axis of said pin on the locking pin side facing away from
the first handle position, and that the pivotable arm has its other hand connected
with the locking pin by means of a pivot link which is spaced more from the housing
than the pivot axis of the pivotable arm.
5. A dispenser head according to claim 3 or 4, characterized in that the pivot link consists of a cross member formed on the pivotable arm and
supported by a breast member provided on the end of the locking pin, and that the
locking pin extends through an opening in the cross member with clearance.
6. A dispenser head according to one or more of claims 1-5, characterized in that the handle is formed as a hollow jacket of plastics or metal arranged substantially
around the movable parts of the release mechanism.