Technical Field
[0001] The present invention relates to a beverage dispensing device for pouring an effervescent
beverage, such as beer.
Background Art
[0002] Conventionally, beverage dispensing devices including a foam-forming mechanism that
generates beer foam in a last process of dispensing beer and that pours the beer foam
into a glass have been proposed.
[0003] For example, a beverage dispensing device described in PTL 1 includes a foam-forming
mechanism that presses a central portion of a tube for dispensing beverage with a
pressing member. Regarding the pressing member, a position in the height direction
of the pressing member is determined according to tilting operation of an operation
lever (drive member) in the front-rear direction.
[0004] Because of this configuration, in the technology described in PTL 1, foam is generated
by elastically deforming the tube for dispensing beverage according to a pressing
amount, narrowing cross-sectional area of an inner cavity in the tube, and thereby
causing an orifice to be generated.
Citation List
Patent Literature
Summary of Invention
Technical Problem
[0006] However, in the foam-forming mechanism described in PTL 1, to generate foam having
desired quality, it is required to operate the operation lever in such a manner as
to constantly maintain a tilted posture of the operation lever at a predetermined
position. Therefore, the cross-sectional area (shape) of the orifice is automatically
determined according to a degree of tilt of the operation lever. For example, when
the tilt is gentle, the cross-sectional area of the orifice is large and coarse foam
is generated. In other words, since the cross-sectional area (shape) of an orifice
depends on operational skill of an operator, it becomes difficult to adjust foaming.
Since therefore, it becomes more difficult to adjust foam quality and foam quality
varies, there is room for improvements in increasing reproducibility of adjusted foam
quality.
[0007] In addition, in PTL 2, an electric dispensing mechanism that electrically controls
pressing of a tube is proposed. However, the electric dispensing mechanism requires
a drive valve having a larger size than a mechanical dispensing mechanism. Therefore,
there is a problem in that an occupation area of the dispensing mechanism becomes
large. Further, since the electric dispensing mechanism has a substantially different
operability from a conventional mechanical beverage dispensing device, an operator
feels a sense of discomfort at the time of use.
[0008] Accordingly, the present invention has been made in consideration of the above-described
problem, and an object of the present invention is to provide a beverage dispensing
device that excels in manual operability, facilitates adjustment of foam quality,
and provides high reproducibility of adjusted foam quality and a beverage server including
the beverage dispensing device.
Solution to Problem
[0009] In order to achieve the above-described object, according to one aspect of the present
invention, there is provided a beverage dispensing device switchable among dispensing
of an effervescent beverage, dispensing stop, and foaming by opening and closing an
inner cavity of a flexible tube in accordance with operation by an operator, the beverage
dispensing device including: an operation lever operable by an operator to a dispensing
position to dispense the effervescent beverage, a foaming position to dispense foam
of the effervescent beverage, and a stop position to stop dispensing of the effervescent
beverage and foaming; a slide piece configured to slidably move in a front-rear direction
in association with operation of the operation lever; an opening/closing piece configured
to open and close the inner cavity by advancing and retracting in an opposing direction
to the flexible tube by action of a cam associated with sliding movement of the slide
piece in accordance with operation of the operation lever and pressing the flexible
tube only with elastic pressing force of a biasing spring; and a foam-forming piece
configured to form foam by advancing and retracting in an opposing direction to the
flexible tube at a position on a dispensing side of the opening/closing piece by action
of a cam associated with sliding movement of the slide piece in accordance with operation
of the operation lever, pressing the flexible tube only with elastic pressing force
of a biasing spring, and narrowing the inner cavity.
[0010] In addition, in order to achieve the above-described object, a beverage server according
to another aspect of the present invention includes the beverage dispensing device
according to the aspect of the present invention.
[0011] According to the beverage dispensing device according to the one aspect of the present
invention and the beverage server including the beverage dispensing device, the beverage
dispensing device is switchable among dispensing of the effervescent beverage, dispensing
stop, and foaming by the slide piece slidably moving in accordance with operation
of the operation lever by the operator and causing the opening/closing piece and the
foam-forming piece to advance and retract by action of cams associated with the sliding
movement and press the flexible tube. Therefore, the beverage dispensing device and
the beverage server excel in manual operability.
[0012] Since each of the opening/closing piece and the foam-forming piece advances and retracts
by action of a cam associated with sliding movement of the slide piece and also presses
the flexible tube of the beverage lead-out path only with elastic pressing force of
a biasing spring, pressure is adjusted only with elastic pressing force of the biasing
spring that is set in advance in accordance with a profile of a cam without depending
on operational force exerted on the operation lever by the operator. Therefore, it
is possible to stabilize the cross-sectional area of the inner cavity of the flexible
tube after deformation to a substantially constant area by pressing by the opening/closing
piece and the foam-forming piece. Since therefore, foam quality can be easily adjusted
and reproducibility of an adjusted foam quality is high, foam having stable quality
can be formed.
[0013] Note that "only with elastic pressing force of a biasing spring" means that no other
operation pressure or mechanical working pressure is actively exerted in a biasing
manner. In other words, it is needless to say that earth gravity acts on a spring
member, a piece member, and other constituent members, and masses of the components
under the gravity of the earth are included as "elastic pressing force only by spring
pressure".
Advantageous Effects of Invention
[0014] As described above, according to the present invention, it is possible to provide
a beverage dispensing device that excels in manual operability, facilitates adjustment
of foam quality, and provides high reproducibility of adjusted foam quality and a
beverage server including the beverage dispensing device.
Brief Description of Drawings
[0015]
FIG. 1 is a schematic diagram descriptive of one embodiment of a beverage server including
a beverage dispensing device according to one aspect of the present invention;
FIG. 2 is a schematic diagram descriptive of one embodiment of the beverage dispensing
device according to the one aspect of the present invention, and FIG. 2 illustrates
a portion including the beverage dispensing device in FIG. 1 in an enlarged manner
and also illustrates a main part in a cutaway manner;
FIGS. 3A to 3C are explanatory diagrams of the one embodiment of the beverage dispensing
device according to the one aspect of the present invention, and FIG. 3A is a schematic
side view of the beverage dispensing device in FIG. 1 and illustrates a use state
in which a tap head is closed, FIG. 3B illustrates a maintenance state in which the
tap head is opened, and the FIG. 3C is a schematic perspective view of the maintenance
state in FIG. 3B viewed from an obliquely upper left side;
FIG. 4 is an explanatory diagram of a tube housing portion of a tap base (a schematic
plan view of a portion viewed from the arrow A in FIG. 3B);
FIG. 5 is a schematic diagram descriptive of an interlocking relationship among respective
portions in accordance with a tilted posture of an operation lever, and FIG. 5 illustrates
a state in which the operation lever is positioned at a stop position;
FIG. 6 is another schematic diagram descriptive of the interlocking relationship among
the respective portions in accordance with the tilted posture of the operation lever,
and FIG. 6 illustrates a state in which the operation lever is positioned at a dispensing
position;
FIG. 7 is still another schematic diagram descriptive of the interlocking relationship
among the respective portions in accordance with the tilted posture of the operation
lever, and FIG. 7 illustrates a state in which the operation lever is positioned at
a continuous dispensing position;
FIG. 8 is still another schematic diagram descriptive of the interlocking relationship
among the respective portions in accordance with the tilted posture of the operation
lever, and FIG. 8 illustrates a state in which the operation lever is positioned at
a foaming position;
FIGS. 9A and 9B are schematic diagrams descriptive of an elastically deformed state
of a flexible tube by advancing and retracting motions of an opening/closing piece
(a cross section of a main part taken along line X-X in FIG. 2), and FIG. 9A illustrates
a dispensing state in which the opening/closing piece has retracted and FIG. 9B illustrates
a stop state in which the opening/closing piece has advanced; and
FIGS. 10A and 10B are schematic diagrams descriptive of an elastically deformed state
of the flexible tube by advancing and retracting motions of a foam-forming piece (a
cross section of a main part taken along line Y-Y in FIG. 2), and FIG. 10A illustrates
the dispensing state in which the foam-forming piece has retracted and FIG. 10B illustrates
a foaming state in which the foam-forming piece has advanced.
Description of Embodiments
[0016] One embodiment of the present invention will be described below with reference to
the drawings as appropriate.
[0017] An effervescent beverage to be applied to a beverage dispensing device of the present
embodiment is an effervescent beverage containing carbon dioxide gas. Although an
effervescent beverage of this type is typically beer, examples of the effervescent
beverage other than beer include a beer-taste beverage (including low-malt beer, new
genre beer, non-alcoholic beer, and the like) and a beverage that is categorized as
"other beverages" and that generates foam while being exposed to the air.
[0018] For example, such a beverage is, as an effervescent beverage such as beer, a beverage
that preferably has a NIBEM value, which is used as an index value indicating foam-stability
characteristics, of 20 or more, more preferably 40 or more, and further more preferably
60 or more. With regard to a measurement method of a NIBEM value, see "Revised BCOJ
Beer Analysis Method" (issued by Public Interest Incorporated Foundation Brewing Society
of Japan).
[0019] Note that the drawings are schematic. Therefore, it should be noted that relations,
ratios, and the like between thicknesses and planar dimensions are different from
actual ones, and the drawings include portions having different dimensional relationships
and ratios from one another among the drawings.
[0020] In addition, the embodiment, which will be described below, indicates a device and
a method to embody the technical idea of the present invention by way of example,
and the technical idea of the present invention does not limit the materials, shapes,
structures, arrangement, and the like of the constituent components to the embodiment
described below.
[Beverage Server]
[0021] First, an overall structure of a beverage server will be described.
[0022] As illustrated in FIG. 1, a beverage server 1 of the present embodiment includes
a holding container 3 configured to house, inside the holding container 3 itself,
a barrel 2 in which an effervescent beverage is contained, a gas feeder 4 configured
to feed a gas for dispensing (for example, carbon dioxide gas) into the barrel 2,
and a beverage dispensing device 100 attached to the holding container 3 and for switching
dispensing of the effervescent beverage via a beverage lead-out path 10, foaming,
and stop states of the dispensing and the foaming to one another. The holding container
3 has an opening/closing door 3b disposed on a side surface of a main body 3a of the
holding container 3, and inside the holding container 3, a not-illustrated device,
such as a cooling unit, for the barrel 2 is arranged.
[0023] A beverage extraction unit 2a is disposed at the center of an upper portion of the
barrel 2, and a gas feed pipe 4a of the gas feeder 4 is installed to a side portion
of the beverage extraction unit 2a in such a manner that the gas can be fed into the
barrel 2. The beverage lead-out path 10 has a connection tube 13 on the base end side
attached to the center of an upper portion of the beverage extraction unit 2a in an
attachable and detachable manner.
[0024] The effervescent beverage is pushed out from the beverage extraction unit 2a of the
barrel 2 to the beverage lead-out path 10 by pressure of the gas fed from the gas
feeder 4. The beverage lead-out path 10 is installed to lead the effervescent beverage
fed out from the barrel 2 by gas pressure to a dispensing spout 5 of the beverage
dispensing device 100.
[0025] The beverage dispensing device 100 of the present embodiment includes a tap head
20 on the dispensing spout 5 side and a tap base 30 covering an upper portion of the
tap head 20. The tap base 30 has an attachment portion 32 on the base end side of
the tap base 30 fixed to a position on the central upper side of the opening/closing
door 3b by screwing or the like in an attachable and detachable manner. Because of
this configuration, the beverage dispensing device 100 is attached to a side portion
of the main body 3a of the holding container 3 in a projecting manner.
[0026] On an upper portion of the beverage dispensing device 100, a tiltably operable operation
lever 70 projects upward from the tap head 20, which enables an operator of the beverage
server 1 to tiltably operate the operation lever 70 from the front of the holding
container 3 by hand. In addition, the operator of the beverage server 1 can access
the barrel 2 inside the main body 3a by opening the opening/closing door 3b.
[Beverage Dispensing Device]
[0027] Next, the above-described beverage dispensing device 100 will be described in more
detail.
[0028] In the beverage dispensing device 100 of the present embodiment, a housing structure
is formed by placing the tap head 20 on top of the tap base 30 in the vertical direction,
as illustrated in FIGS. 2 and 3A to 3C. As illustrated in FIG. 2 in which a main part
is illustrated in an enlarged manner, the beverage lead-out path 10 is inserted into
an insertion hole 33 in a back surface of the attachment portion 32 attached on the
opening/closing door 3b and led from the inside of the above-described main body 3a
into the beverage dispensing device 100.
[0029] Hereinafter, the longitudinal direction (the right-left direction in FIG. 2) of a
flexible tube 11 that passes through the inside of the beverage dispensing device
100 is referred to as a front-rear direction of the beverage server 1 and the beverage
dispensing device 100, and the operator side (the right-hand side in FIG. 2) and an
opposite side to the operator side (the left-hand side in FIG. 2) are referred to
as a front (or a near side) and a rear (or a far side), respectively. In addition,
a lateral direction with respect to the flexible tube 11 is also referred to as a
right-left direction of the beverage dispensing device 100.
[0030] In the example of the present embodiment, a dispensing nozzle 90 that extends obliquely
downward and forward is arranged at a position of a tip of the flexible tube 11 on
a dispensing side of the tap base 30. The dispensing nozzle 90 is formed in a truncated
cone shape that has an inner diameter dimension gradually increasing from the base
end side toward the tip end side. The flexible tube 11 is formed of an elastically
deformable resin material having flexibility. The flexible tube 11 is installed to
be horizontally housed in the tap base 30 of the beverage dispensing device 100.
[0031] The flexible tube 11 is bent downward on the dispensing side of the tap base 30,
and a tip portion of the flexible tube 11 is connected to the base end portion of
the dispensing nozzle 90 serving as the dispensing spout 5, inside the beverage dispensing
device 100. Note that although in the example of the present embodiment, an example
in which the dispensing nozzle 90 serving as the dispensing spout 5 is connected to
the tip portion of the flexible tube 11 was described, the present invention is not
limited to the configuration and the tip portion itself of the flexible tube 11 may
be configured to serve as the dispensing spout 5.
[0032] The above-described operation lever 70 is installed on a front-side upper portion
of the tap head 20 in such a manner as to be able to slidably move a slide piece 40.
The operation lever 70 of the present embodiment includes a lever shaft 71 and a lever
body 75 attached to a joint portion 72 on an upper portion of the lever shaft 71.
[0033] At the middle of the lever shaft 71, a hemispherically-shaped fulcrum portion 73
is formed. In addition, on a lower end portion of the lever shaft 71, an action portion
74 that has end surfaces in the front-rear direction formed in a spherical shape is
formed. The operation lever 70 is attached at a central position in a front-side portion
of the tap head 20 in such a way that tilting operation in which the operation lever
70 is tilted in the front-rear direction about the fulcrum portion 73 can be performed.
[0034] Inside the tap head 20, a slide guide portion 25 that allows movement of the above-described
slide piece 40 in a sliding direction and, at the same time, constrains movement of
the slide piece 40 in the other directions is formed (see FIGS. 9A, 9B, 10A and 10B).
[0035] The slide piece 40 is housed in the tap head 20 in a slidably movable manner in the
longitudinal direction of the flexible tube 11 along a guide surface of the slide
guide portion 25. The slide piece 40 has a position thereof in the sliding direction
when no operational force is exerted maintained by elastic pressing forces of an opening/closing
spring 51 and a foam-forming spring 61 while being housed in the slide guide portion
25. Note that as an optional configuration, it may be configured such that slide springs
41 are disposed in front and rear in the sliding direction of the slide piece 40 and
the slide springs 41 restrict the position in the sliding direction of the slide piece
40.
[0036] At a position on a front side of an upper surface of the slide piece 40, a fitting
groove 42 to engage the operation lever 70 and the slide piece 40 with each other
is formed. The lever shaft 71 is combined with the slide piece 40 in such a manner
that the spherical surface portions on the front and rear sides of the action portion
74 come into sliding contact with an inner peripheral surface of the fitting groove
42 of the slide piece 40. Because of this configuration, it is configured such that
when the operator operates the operation lever 70 in the front-rear direction in a
tilting manner by hand, the slide piece 40 housed in the slide guide portion 25 can
slidably move in the front-rear direction along the guide surface of the slide guide
portion 25.
[0037] The operation lever 70 of the present embodiment can be tiltably operated among a
stop position P0 at which the operation lever 70 is in a posture in which the operation
lever 70 substantially stands vertically (see FIG. 5), a dispensing position P1 at
which the operation lever 70 is tilted to the front side of the stop position P0 (see
FIG. 6), and a foaming position P3 at which the operation lever 70 is tilted to the
rear side of the stop position P0 (see FIG. 8), as described later. Note that in the
beverage server 1 of the present embodiment, the operation lever 70 is also configured
to be tiltably operable to a continuous dispensing position P2 at which a dispensing
state of the effervescent beverage can be maintained (see FIG. 7).
[0038] On an upper portion on the tip end side of the tap base 30, as illustrated in FIGS.
3A to 3C, a fulcrum shaft 23 that has an axis orthogonal to an arrangement direction
of the flexible tube 11 is disposed, and at one end of the tap head 20, an axial support
portion 34 that projects downward in such a manner as to fit to the fulcrum shaft
23 in a freely rotatable manner is formed.
[0039] The tap head 20 has the axial support portion 34 fitted to the fulcrum shaft 23 in
the opposing direction and is thereby combined with the tap base 30 in a turnable
manner about the fulcrum shaft 23. Because of this configuration, the tap head 20
is configured to be able to be positioned in a use posture in which the tap head 20
is locked on the tap base 30 side (FIG. 3A) and a maintenance posture in which the
tap head 20 is turned upward with respect to the tap base 30 (FIGS. 3B and 3C).
[0040] Note that in the present embodiment, an engagement claw 24 that is installed in an
advanceable and retractable manner by a pressing spring is disposed on the tap head
20 and a recessed portion that is engaged with the engagement claw 24 is also disposed
on the tap base 30, and the tap head 20 and the tap base 30 are configured to be opened
and closed after the engagement is released by turning the engagement claw 24 for
engagement between the tap base 30 and the tap head 20 against the pressing spring
of the engagement claw 24.
[0041] Contact surfaces of the tap base 30 and the tap head 20 that face each other are
formed as a pair of tube holding surfaces 21 and 31. As illustrated in FIG. 4, a tube
holding surface 31 is formed on the internal upper surface side of the tap base 30,
and a tube housing portion 80 is formed on the tube holding surface 31. Respective
parts of the tube housing portion 80 are configured to be able to house the beverage
lead-out path 10 along a central line CL of the tube holding surface 31, which extends
in the extending direction of the to-be-housed flexible tube 11.
[0042] The beverage lead-out path 10 of the present embodiment is formed including the connection
tube 13, a tube joint 12, and the flexible tube 11. The flexible tube 11 is connected
to the tip end side of the connection tube 13 via the tube joint 12 in a communicable
state in which the effervescent beverage is allowed to pass through an inner cavity
of the flexible tube 11. The connection tube 13 is connected to an entry side of the
tube joint 12 inside the beverage dispensing device 100 while being horizontally extended
before the beverage dispensing device 100. To an exit side of the tube joint 12, the
base end portion of the flexible tube 11 is connected.
[0043] The tap base 30 and the tap head 20 defines a tube storage area that holds the beverage
lead-out path 10 including the flexible tube 11 while being in a substantially close
contact with an outer surface of the beverage lead-out path 10, inside the beverage
dispensing device 100 by vertically laying the tube holding surfaces 21 and 31 of
the tap head 20 and the tap base 30 on top of each other.
[0044] In the present embodiment, the respective parts of the tube housing portion 80 include,
in order from the rear side, a connection tube housing groove 87 configured to house
a tip portion of the connection tube 13, a flange portion holding portion 84 configured
to house a flange portion 12a of the tube joint 12 and a joint housing portion 83
configured to house a cylindrical main body portion of the tube joint 12 that continue
from the connection tube housing groove 87, and a tube holding portion 81 configured
to house a to-be-pressed intermediate portion of the flexible tube 11 that continues
from the joint housing portion 83.
[0045] The tube holding portion 81 is formed to hold the flexible tube 11 at a fixed position
in the tube housing portion 80 and also stabilize an elastically deformed state of
the flexible tube 11 at the time of being pressed by an opening/closing groove 50
and a foam-forming piece 60. In particular, the tube holding portion 81 of the present
embodiment includes a right-and-left pair of rear-side holding portions 81b and a
right-and-left pair of front-side holding portions 81a configured to hold the flexible
tube 11 that is in a state of being housed in the tube housing portion 80, by clamping
the flexible tube 11 from the right-hand and left-hand sides. Between the joint housing
portion 83 and the rear-side holding portions 81b, an opening/closing groove 85 formed
at a position opposed to the opening/closing piece 50 is formed, and between the rear-side
holding portions 81b and the front-side holding portions 81a, a foam-forming groove
86 formed at a position opposed to the foam-forming piece 60 is formed.
[0046] Further, in the tube holding portion 81 of the present embodiment, a tube guiding
surface 88, a pair of holding plate guide surfaces 89 disposed on the right-hand and
left-hand sides of the tube guiding surface 88, and a nozzle housing hole 82 opening
to an end on the dispensing side are disposed on the front side of the front-side
holding portions 81a. The tube guiding surface 88 is formed into a smooth surface
that forms a protruding semicircular cross-sectional outline, and maintains a bent
state of the flexible tube 11 that is bent downward.
[0047] The dispensing nozzle 90 connected to the tip of the flexible tube 11 has a tip portion
thereof on the dispensing spout 5 side inserted into the nozzle housing hole 82, and
a loading posture of the dispensing nozzle 90 is maintained while a pair of nozzle
holding plates 91 that project to the right-hand and left-hand sides on the base end
side of the dispensing nozzle 90 are guided by the pair of holding plate guide surfaces
89.
[0048] The slide piece 40 in the tap head 20 is arranged above and facing the tube housing
portion 80. On an upper surface of the above-described slide piece 40, two cam grooves
45 and 46 that are formed in predetermined cam profiles and that form substantially
V-shapes are formed on the rear side of the fitting groove 42. Between the cam groove
45 and the cam groove 46, a mountain portion 44 is formed.
[0049] The slide piece 40 includes the cam groove 45 for the opening/closing piece 50 and
the cam groove 46 for the foam-forming piece 60, which are formed on the upper surface
of the slide piece 40, and in a portion of the slide piece 40 including the two cam
grooves 45 and 46, a guiding slot 43 that extends along the sliding direction is formed
in a penetrating manner in the vertical direction in such a way that no interfere
occurs within a sliding range of the slide piece 40.
[0050] Inside the tap head 20, the opening/closing piece 50 and the foam-forming piece 60
are disposed in this order from the rear side, and cam follower portions 53 and 63
of the opening/closing piece 50 and the foam-forming piece 60 are engaged with the
cam grooves 45 and 46 in an advanceable and retractable manner along inclinations
of cam surfaces (cam profiles) of the cam grooves 45 and 46, respectively. Because
of this configuration, the opening/closing piece 50 is advanced and retracted by the
slide piece 40 and is thereby capable of opening and closing the inner cavity of the
flexible tube 11, and the foam-forming piece 60 is advanced and retracted by the slide
piece 40 and is thereby capable of elastically deforming the flexible tube 11 into
a shape suitable for dispensing foam.
[0051] More specifically, the opening/closing piece 50 is a member formed in a substantially
T-shape in front view that includes a pressing portion 52 and a pair of cam follower
portions 53 that project to the right-hand and left-hand sides from an upper portion
of the pressing portion 52. The cam follower portions 53 form cam followers that protrude
downward. The pressing portion 52 of the opening/closing piece 50 is inserted into
the guiding slot 43 from above the slide piece 40 and is loaded in the slide piece
40 while the pair of cam follower portions 53 are fitted into the rear-side cam groove
45.
[0052] In the loaded state, the opening/closing piece 50 is constantly biased from the upper
side toward the lower side in the vertical direction by the opening/closing spring
51, which is a biasing spring. In the present embodiment, the opening/closing piece
50 includes, as an elastic pressing force adjustment mechanism 54 to adjust elastic
pressing force of the opening/closing spring 51, a setscrew and a nut configured to
fix a screwing position of the setscrew on top of the opening/closing spring 51 and
is configured to be capable of adjusting pressing force exerted by the opening/closing
spring 51, using the elastic pressing force adjustment mechanism 54.
[0053] In addition, the foam-forming piece 60 is a member formed in a substantially T-shape
in front view that includes a pressing portion 62 and a pair of cam follower portions
63 that project to the right-hand and left-hand sides from an upper portion of the
pressing portion 62. The cam follower portions 63 form cam followers that protrude
downward. The pressing portion 62 of the foam-forming piece 60 is inserted into the
guiding slot 43 from above the slide piece 40 and is loaded in the slide piece 40
while the pair of cam follower portions 63 are fitted into the front-side cam groove
46.
[0054] In the loaded state, the foam-forming piece 60 is constantly biased from the upper
side toward the lower side in the vertical direction by the foam-forming spring 61,
which is a biasing spring. In the present embodiment, the foam-forming piece 60 includes,
as an elastic pressing force adjustment mechanism 64 to adjust elastic pressing force
of the foam-forming spring 61, a setscrew and a nut configured to fix a screwing position
of the setscrew on top of the foam-forming spring 61 and is configured to be capable
of adjusting pressing force exerted by the foam-forming spring 61, using the elastic
pressing force adjustment mechanism 64.
[0055] In this configuration, as illustrated in FIGS. 10A and 10B, a mechanism to narrow
the inner cavity of the flexible tube 11 by advancement and retraction of the foam-forming
piece 60 is configured to cause only one narrowed flow path to be generated in the
beverage lead-out path by elastically deforming the flexible tube 11 with the recessed
pressing portion 62 of the foam-forming piece 60.
[0056] In particular, a flow path narrowing mechanism for the flexible tube 11 is configured
in a three-point clamping structure that clamps the flexible tube 11 at three points
by a bottom wall portion 86d of the foam-forming groove 86 and a right-and-left pair
of limiting side wall portions 62a and 62b that are formed on an inner surface of
the recessed pressing portion 62 of the foam-forming piece 60 and that face the bottom
wall portion 86d in the vertical direction, as illustrated in FIG. 10B.
[0057] Further, the tube housing portion 80 includes the bottom wall portion 86d that pinches
the flexible tube 11 in collaboration with the pressing portion of the foam-forming
piece 60, the pair of limiting side wall portions 62a and 62b are formed to be line-symmetric
with respect to the advancement and retraction direction of the foam-forming piece
60, and the bottom wall portion 86d and the pair of limiting side wall portions 62a
and 62b come into contact with an outer peripheral surface of the flexible tube 11
at three points at the same time. Note that in construction of the three-point clamping
structure, a protruding portion may be formed on a bottom surface of the bottom wall
portion 86d. However, when a protruding portion is formed on the bottom surface of
the bottom wall portion 86d, stability of foam generation tends to deteriorate. Therefore,
in the beverage dispensing device 100 of the present embodiment, the bottom surface
of the bottom wall portion 86d is formed in a flat surface.
[Operation and Advantageous Effects]
[0058] Next, operation and advantageous effects of the beverage server 1 and the beverage
dispensing device 100 installed in the beverage server 1 according to the present
embodiment will be described. First, maintenance of the beverage dispensing device
100 and in particular an installation process of the beverage lead-out path 10 will
be described.
[0059] When maintenance of the beverage dispensing device 100 of the present embodiment
is performed, engagement of the engagement claw 24 between the tap base 30 and the
tap head 20 is released, and the tap head 20 is turned to an upper front side about
the axial support portion 34 by hand and thereby brought into an open posture. Through
this operation, as illustrated in FIG. 3B, the tap base 30 and the tap head 20 are
separated from each other, and the tube housing portion 80 to hold the flexible tube
11 inside the beverage dispensing device 100 is opened in a visually recognizable
manner.
[0060] Subsequently, as illustrated in FIG. 3C, the beverage lead-out path 10 is arranged
in the tube housing portion 80, and the tip portion of the flexible tube 11 is inserted
into the dispensing nozzle 90 by hand. Since the tube holding portion 81 is formed
as a clamping portion on the right-hand and left-hand sides of the tube housing portion
80, the flexible tube 11 inserted into the tube housing portion 80 is, while being
clamped from the right and left lateral sides by the tube holding portion 81, led
to the base end portion of the dispensing nozzle 90 while a state in which the flexible
tube 11 is bent along the tube guiding surface 89 is maintained.
[0061] Subsequently, as illustrated in FIG. 3A, the tap head 20 is turned to a closed posture
by hand in such a way that the tap head 20 overlaps the tap base 30. Through this
operation, it is possible to pass the flexible tube 11 to a predetermined position
in the tube storage area without using an appliance, such as a tool, and, by turning
the tap head 20 downward and thereby bringing the tap head 20 into the closed posture,
hold the beverage lead-out path 10 including the flexible tube 11. Note that since
removal of the beverage lead-out path 10 can be performed in a reverse process to
the above-described process, a description thereof will be omitted.
[0062] Next, dispensing of the effervescent beverage, dispensing stop, and foaming operation
by the beverage dispensing device 100 will be described with reference to FIGS. 5
to 8, 9A, 9B, 10A and 10B as appropriate.
[0063] First, when no operational force is exerted on the operation lever 70 of the beverage
dispensing device 100, the operation lever 70 is positioned at the stop position P0
at which the operation lever 70 is in a posture in which the axis of the operation
lever 70 stands vertically, as illustrated in FIG. 5. When the operation lever 70
is positioned at the stop position P0, the cam follower portion 63 of the foam-forming
piece 60 is fitted into a valley of the cam groove 46 in the slide piece 40, and the
cam follower portion 53 of the opening/closing piece 50 is fitted into a valley of
the cam groove 45 in the slide piece 40.
[0064] Therefore, both the opening/closing piece 50 and the foam-forming piece 60 are in
a state of having advanced in the opposing direction to the flexible tube 11. On this
occasion, both the opening/closing piece 50 and the foam-forming piece 60 are pressing
the flexible tube 11 into expected states with elastic pressing forces of the opening/closing
spring 51 and the foam-forming spring 61, respectively. On this occasion, in the example
in the present embodiment, the opening/closing piece 50 completely closes a flow path
at an opening/closing portion, as illustrated in FIG. 9B.
[0065] Note that on this occasion, the foam-forming piece 60 is brought into a state of
having narrowed a flow path at a foam-forming portion of the flexible tube 11 to a
predetermined shape, as illustrated in FIG. 10B. Through this operation, a dispensing
stop state of the effervescent beverage is maintained. In addition, the elastic pressing
forces of the opening/closing spring 51 and the foam-forming spring 61 (when the slide
springs 41 are installed, the elastic pressing forces obtained by adding elastic pressing
forces of the slide springs 41 to the elastic pressing forces of the opening/closing
spring 51 and the foam-forming spring 61) are balanced, and the operation lever 70
is self-standing in a neutral posture in which the axis of the operation lever 70
is vertical.
[0066] Next, in the beverage server 1 of the present embodiment, when the operator pours
the effervescent beverage into a glass, the operator presses the operation lever 70
toward the near side when viewed from the operator side (the rightward direction in
FIG. 6) by hand from the neutral posture until the operation lever 70 reaches a first
forward tilting posture (the dispensing position P1), as illustrated in FIG. 6.
[0067] When an operational force tilting forward the operation lever 70 until the operation
lever 70 reaches the first forward tilting posture is exerted, the slide piece 40
moves rearward (the leftward direction in FIG. 6) to a position corresponding to the
first forward tilting posture by the operational force. In association with the movement,
by action of the above-described cam, the protrusion-shaped cam follower of the opening/closing
piece 50 moves along a front-side cam surface of the cam groove 45 of the slide piece
40 to above an intermediate portion of the front-side cam surface, and the flow path
at the opening/closing portion is opened, as illustrated in FIG. 9A. Further, the
protrusion-shaped cam follower of the foam-forming piece 60 moves upward along a front-side
cam surface of the cam groove 45 of the slide piece 40 to an intermediate portion
of the front-side cam surface, and the flow path at the foam-forming portion is also
opened, as illustrated in FIG. 10A. Through this operation, the operator can pour
the effervescent beverage into a glass.
[0068] In the beverage server 1 of the present embodiment, the operation lever 70 is configured
to be tiltably operable to a second forward tilting posture by exerting an operational
force tilting the operation lever 70 to the front side of the above-described first
forward tilting posture, as illustrated in FIG. 7.
[0069] When the operation lever 70 is in the second forward tilting posture, the operation
lever 70 is positioned at the continuous dispensing position P2 at which the dispensing
state of the effervescent beverage is maintained. In other words, when the operator
pours the effervescent beverage into a large-size container, such as a pitcher, the
operator further presses the operation lever 70 from the dispensing position P1 to
the near side when viewed from the operator side (the rightward direction in FIG.
7) by hand (the continuous dispensing position P2), as illustrated in FIG. 7.
[0070] Through this operation, the slide piece 40 moves farther rearward (the leftward direction
in FIG. 7) in accordance with the second forward tilting posture. In association with
the movement, the protrusion-shaped cam follower of the opening/closing piece 50 climbs
over the front-side cam surface of the cam groove 45 of the slide piece 40 and reaches
the mountain portion 44, and is pressed against a horizontal plane on the top of the
mountain portion 44.
[0071] In the pressed state, the elastic pressing forces of the opening/closing spring 51
and the foam-forming spring 61 (when the slide springs 41 are installed, the elastic
pressing forces obtained by adding the elastic pressing forces of the slide springs
41 to the elastic pressing forces of the opening/closing spring 51 and the foam-forming
spring 61) are configured to be balanced, and when no operational force is exerted
on the operation lever 70, a tilted posture of the the operation lever 70 is maintained.
Through this operation, until the operation lever 70 is returned from the continuous
dispensing position P2 to the stop position P0 at which the operation lever 70 is
in a neutral posture by further exerting an operational force on the operation lever
70, the dispensing state of the effervescent beverage is maintained, and the operator
can continuously pour the effervescent beverage into a large-size container, such
as a pitcher.
[0072] Next, when in the beverage server 1 of the present embodiment, the operator performs
foaming in the glass, the operator presses the operation lever 70 of the beverage
dispensing device 100 toward the far side when viewed from the operator side (the
leftward direction in FIG. 8) by hand (the foaming position P3) from the neutral posture,
as illustrated in FIG. 8. Through this operation, the slide piece 40 moves forward
(the rightward direction in FIG. 8). In association with the movement, the protrusion-shaped
cam follower of the opening/closing piece 50 moves upward along a rear-side cam surface
of the cam groove 45 of the slide piece 40, and the flow path at the opening/closing
portion of the flexible tube 11 is opened, as illustrated in FIG. 9A.
[0073] Further, the protrusion-shaped cam follower of the foam-forming piece 60 is brought
into a pressed state in which the protrusion-shaped cam follower is restricted by
a rear-side cam surface of the cam groove 46 of the slide piece 40, and the flow path
at the foam-forming portion of the flexible tube 11 is narrowed to a predetermined
shape, as illustrated in FIG. 10B.
[0074] In particular, in the present embodiment, the flow path narrowing mechanism based
on advancement and retraction of the foam-forming piece 60 causes only one narrowed
flow path to be generated in the beverage lead-out path 10 by elastically deforming
the flexible tube 11 by the opposing recessed pressing portion 62 of the foam-forming
piece 60 at a position at which the flexible tube 11 is held in the recessed housing
portions of the front-side holding portions 81a and the rear-side holding portions
81b. Because of this configuration, it is possible to generate foam by narrowing cross-sectional
area of the inner cavity in the tube and thereby causing an orifice to be generated
and perform desired foaming.
[0075] As described above, according to the beverage dispensing device 100 of the present
embodiment, the opening/closing piece 50 can open and close the flexible tube 11 only
with elastic pressing force of the opening/closing spring 51 by advancing and retracting
operation with respect to the flexible tube 11 that is converted by action of a cam
associated with sliding movement of the slide piece 40 in accordance with tilting
operation of the operation lever 70. Likewise, the foam-forming piece 60 can form
foam by narrowing the flexible tube 11 only with elastic pressing force of the foam-forming
spring 61 by advancing and retracting operation with respect to the flexible tube
11 that is converted by action of a cam associated with the sliding movement of the
slide piece 40 in accordance with the tilting operation of the operation lever 70.
[0076] In other words, in the beverage dispensing device 100 of the present embodiment,
since a pressure control system based on pressing force only by spring pressure of
the biasing springs 51 and 61 is employed, it is possible to perform pressing with
a stable pressing force that is constantly uniform. Therefore, unlike the technology
described in PTL 1 described above by way of example, it is possible to stabilize
the cross-sectional area of the inner cavity of the flexible tube 11 after deformation
to a substantially constant area without depending on adjustment of force by the operator.
[0077] Thus, according to the beverage dispensing device 100 and the beverage server 1 including
the beverage dispensing device 100 according to the present embodiment, the beverage
dispensing device 100 and the beverage server 1 excel in manual operability, facilitate
adjustment of foam quality, and provide high reproducibility of adjusted foam quality.
Therefore, it is possible to pour an effervescent beverage, such as beer, having a
stable foam quality (Claims 1 and 13).
[0078] Note that although in the present embodiment, a configuration example in which the
operation lever 70 is configured to be able to slidably move the slide piece 40 in
accordance with tilting operation of the operation lever 70 was described, with regard
to the manual operability, various forms of the operation lever 70 can be employed
as long as the operation lever 70 is a lever that is manually operable without being
limited to tilting operation. For example, the operation lever 70 may also be configured
to slidably move, and the slide piece 40 may be configured to be slidably movable
in accordance with the sliding movement of the operation lever 70.
[0079] In addition, according to the beverage dispensing device 100 of the present embodiment,
the operation lever 70 is configured to be tiltably operable to the stop position
P0 at which dispensing of the effervescent beverage and foaming are stopped, the dispensing
position P1 at which the effervescent beverage is dispensed, and the foaming position
P3 at which foam of the effervescent beverage is generated and dispensed, and when
the operation lever 70 is positioned at the stop position P0, a cam mechanism causes
the opening/closing piece 50 and the foam-forming piece 60 to be positioned at an
advanced position with respect to the flexible tube 11.
[0080] It is also possible to set the foam-forming piece 60 to a retracted position when
the operation lever 70 is positioned at the stop position P0, as in, for example,
the technology described in PTL 1.
[0081] However, setting the foam-forming piece 60 to an advanced position when the operation
lever 70 is positioned at the stop position P0 as in the present embodiment enables
foaming to be performed immediately after tilting operation of the operation lever
70 toward the foaming position P3 is started.
[0082] This is because since when the former setting is performed, the opening/closing piece
50 is required to be retracted after the foam-forming piece 60 is moved to an advanced
position, a time lag occurs in the foaming with respect to the tilting operation of
the operation lever 70. In addition, there is a problem in that when the opening/closing
piece 50 is retracted at the same time as the foam-forming piece 60 advances, foam
quality immediately after tilting operation of the operation lever 70 deteriorates.
[0083] Further, the cam mechanism of the present embodiment causes the opening/closing piece
50 and the foam-forming piece 60 to be positioned at retracted positions with respect
to the flexible tube 11 when the operation lever 70 is positioned at the dispensing
position P1, and causes the opening/closing piece 50 to be positioned at a retracted
position with respect to the flexible tube 11 and also causes the foam-forming piece
60 to be positioned at an advanced position with respect to the flexible tube 11 when
the operation lever 70 is positioned at the foaming position P3. Therefore, according
to the beverage dispensing device 100 of the present embodiment, the beverage dispensing
device 100 is suitable for achieving a small-size, compact beverage dispensing device
while maintaining excellent operability similar to operability of a conventional manual-type
beverage dispensing device through smooth interlocking operation between the tilting
operation of the operation lever 70 and action of the cam mechanism in accordance
with the tilting operation (Claim 2).
[0084] In particular, according to the beverage dispensing device 100 of the present embodiment,
since the beverage dispensing device 100 is configured to perform tilting operation
in which the operation lever 70 is positioned at the stop position P0 at which the
operation lever 70 is in a posture in which the axis of the operation lever 70 stands
vertically when no operational force is exerted on the operation lever 70, positioned
at the dispensing position P1 when an operational force tilting the operation lever
70 forward is exerted on the operation lever 70 and the operation lever 70 is in the
first forward tilting posture, and positioned at the foaming position P3 when an operational
force tilting the operation lever 70 rearward is exerted on the operation lever 70
and the operation lever 70 is in a rearward tilting posture, the beverage dispensing
device 100 is suitable for, while maintaining excellent operability similar to operability
of a conventional manual-type beverage dispensing device, achieving a small-size,
compact beverage dispensing device (Claim 3).
[0085] Further, in the beverage dispensing device 100 of the present embodiment, the operation
lever 70 is configured to be tiltably operable to the continuous dispensing position
P2 at which the dispensing state of the effervescent beverage is maintained, as illustrated
in FIG. 7, and the cam mechanism is capable of maintaining the tilted posture of the
operation lever 70 unless an operational force is exerted on the operation lever 70
when the operation lever 70 is positioned at the continuous dispensing position P2.
Therefore, according to the beverage dispensing device 100 of the present embodiment,
since the tilted posture of the operation lever 70 is maintained and it is possible
to not only pour the effervescent beverage into a glass but also continuously pour
the effervescent beverage into a large-size container, such as a pitcher, the beverage
dispensing device 100 further excels in convenience (Claim 4).
[0086] In addition, in the beverage dispensing device 100 of the present embodiment, the
cam groove 46 for the foam-forming piece 60 has a cam profile (a bottom surface of
a valley) in the sliding movement direction set wider (longer) than the cam groove
45 for the opening/closing piece 50 to maintain non-operating state of the foam-forming
piece 60 in the sliding movement direction longer than the opening/closing piece 50
as action of a cam associated with sliding movement of the slide piece 40 when the
operation lever 70 is operated to the foaming position P3, as illustrated in FIG.
8.
[0087] Therefore, according to the beverage dispensing device 100 of the present embodiment,
it is possible to generate foam even when the operation lever 70 has not been fully
tilted to the far end (a state in which the beverage flow path 10 has not been completed
opened). In other words, it is possible to generate foam from a time point at which
a tilt angle of the operation lever 70 from the neutral posture is smaller. Since
because of this configuration, it becomes possible to perform finer adjustment of
foaming speed (amount) according to a tilt angle of the operation lever and a foaming
adjustment range with respect to the tilt angle of the operation lever 70 can be expanded,
it becomes easier to adjust the foaming speed (amount) (Claim 5).
[0088] In addition, according to the beverage dispensing device 100 of the present embodiment,
since, as illustrated in FIG. 2, the beverage dispensing device 100 includes the elastic
pressing force adjustment mechanisms (54 and 64) to adjust elastic pressing forces
of the biasing springs (51 and 61) by the opening/closing piece 50 and the foam-forming
piece 60, respectively, pressing force of each of the opening/closing piece 50 and
the foam-forming piece 60 can be individually adjusted. Therefore, the beverage dispensing
device 100 of the present embodiment is suitable for facilitating adjustment of a
dispensing amount of the effervescent beverage and foam quality and further increasing
reproducibility of the adjusted dispensing amount and foam quality (Claim 6).
[0089] When the hollow cylindrical flexible tube 11 is simply pressed from the vertical
direction, a cross section of the inner cavity of the tube after deformation becomes
an ellipse that is flat in the lateral direction. Therefore, the cross section of
the inner cavity of the flat elliptical shape after deformation largely changes due
to a slight difference in a pressing amount by a pressing member that performs pressing
from above or a slight dimensional error of the tube, and in some cases, the flow
path is closed.
[0090] In addition, in a pressing method, such as the technology described in PTL 1, that
generates two or more narrowed flow paths in the beverage lead-out path, shape reproducibility
of the two or more narrowed flow paths is lower than a case where only one narrowed
flow path is generated, adjustment of foam quality is comparatively difficult, and
it is also comparatively difficult to increase reproducibility of adjusted foam quality.
In particular, in the case of a pressing method such as the technology described in
PTL 1, when a dimensional error of the tube and a resin component is large, a problem,
such as no foam being formed, is likely to occur, and influence of a dimensional error
on foam quality is large.
[0091] In contrast, according to the beverage dispensing device 100 of the present embodiment,
since the mechanism to narrow the inner cavity by advancement and retraction of the
foam-forming piece 60 elastically deforms the flexible tube 11 by the recessed pressing
portions 62a and 62b of the foam-forming piece 60 and thereby causes only one narrowed
flow path to be generated in the inner cavity of the flexible tube 11, as illustrated
in FIGS. 10A and 10B, the beverage dispensing device 100 is suitable for facilitating
adjustment of the foam quality and increasing reproducibility of the adjusted foam
quality (Claim 7).
[0092] In particular, in the beverage dispensing device 100 of the present embodiment, the
flow path narrowing mechanism for the flexible tube 11 employs the three-point clamping
structure that clamps the flexible tube 11 at three points by the bottom wall portion
86d of the tube housing portion 80 and the right-and-left pair of limiting side wall
portions 62a and 62b that are formed on the inner surface of the recessed pressing
portion 62 and that face the bottom wall portion 86d in the vertical direction, as
illustrated in FIG. 10B.
[0093] Because of this configuration, according to the beverage dispensing device 100 of
the present embodiment, the cross-sectional area of the inner cavity of the tube after
pressing deformation from the vertical direction can be stabilized to a substantially
constant area regardless of the pressing amount and dimensional error of the tube.
Since therefore, the beverage dispensing device 100 of the present embodiment excels
in manual operability, facilitates adjustment of foam quality, and provides high reproducibility
of adjusted foam quality, the beverage dispensing device 100 extremely excels in forming
foam having stable quality.
[0094] In addition, according to the beverage dispensing device 100 of the present embodiment,
since the beverage dispensing device 100 includes the tube holding portion 81 configured
to hold the flexible tube 11 in a recessed housing portion, the position of the flexible
tube 11 at the opposing position to the foam-forming piece 60 can be securely held.
[0095] In particular, since the tube holding portion 81 of the present embodiment includes
the front-side holding portions 81a configured to hold the flexible tube 11 in a recessed
housing portion at a position on the front side of the foam-forming piece 60 in the
extending direction of the flexible tube 11 and the rear-side holding portions 81b
separated from the front-side holding portions 81a in the sliding direction and configured
to hold the flexible tube 11 in a recessed housing portion at a position on the rear
side of the foam-forming piece 60, the tube holding portion 81 is capable of securely
holding the flexible tube 11 at a position in the vicinity of the foam-forming piece
60 in the front-rear direction.
[0096] Further, since in the beverage dispensing device 100 of the present embodiment, the
front-side holding portions 81a and the rear-side holding portions 81b are configured
such that length in the sliding direction (in other words, the extending direction
of the flexible tube 11) of a holding portion in the front-side holding portions 81a
is shorter than length in the sliding direction of a holding portion in the rear-side
holding portions 81b, this configuration, while enabling the flexible tube 11 to be
securely held at a position in the vicinity of the foam-forming piece 60 in the front-rear
direction, enables pipe length on the dispensing side to be short as much as possible.
Therefore, the beverage dispensing device 100 of the present embodiment is suitable
for facilitating adjustment of foam quality and forming foam having a high reproducibility
of an adjusted foam quality and stable quality (Claim 8).
[0097] In addition, according to the beverage dispensing device 100 of the present embodiment,
since the beverage lead-out path 10 is configured to be easily insertable and removable
into and from the tube housing portion 80 by hand, no special tool and no special
component for fixing is required and the beverage dispensing device 100 excels in
maintainability in replacement and loading work of the beverage lead-out path 10 (Claim
9).
[0098] In particular, in the present embodiment, since the beverage lead-out path 10 is
formed including the flexible tube 11, the connection tube 13 connected to the barrel
2 side, and the tube joint 12 configured to join the connection tube 13 and flexible
tube 11, as illustrated in FIG. 4, the respective constituent components, that is,
the flexible tube, the connection tube, and the tube joint, can be individually removed
and maintained. Note that the beverage lead-out path 10 may be integrated into one
component and may have a configuration in which respective constituent parts cannot
be removed. However, since the beverage lead-out path 10 is more likely to become
dirty toward the tip end (since temperature is high), it is preferable to configure
the beverage lead-out path 10 in such a way that the flexible tube 10 and subsequent
components can be removed and replaced.
[0099] Since the tube housing portion 80 is formed by the connection tube housing groove
87 configured to house the connection tube 13, the joint housing portion configured
to house the tube joint 12, and the tube holding portion 81 configured to house and
hold the flexible tube 11 in this order from the rear side, the tube housing portion
80 is suitable for securely holding the respective constituent parts of the beverage
lead-out path 10 at expected positions.
[0100] In addition, according to the beverage dispensing device 100 of the present embodiment,
a housing structure is formed by placing the tap head 20 on top of the the tap base
30 in the vertical direction, as illustrated in FIG. 2. Further, the flexible tube
11 can be installed by hand in such a way that the flexible tube 11 is horizontally
housed along the front-rear direction in the tube housing portion 80 that is formed
in the tap base 30 and configured to hold the flexible tube 11 in the recessed housing
portion.
[0101] Since the slide piece 40 is housed inside the tap head 20 in a slidably movable manner
along the longitudinal direction of the flexible tube 11 in the tube housing portion
80 and the operation lever 70 is installed projecting upward on a front-side upper
portion of the tap head 20 in such a manner as to be able to slidably operate the
slide piece 40 by tilting operation in the front-rear direction, the slide piece 40
and the operation lever 70 are suitable as a structure that enables a low cost to
be achieved and that excels in maintainability by forming the housing and main components
with as small a number of components as possible (Claim 10).
[0102] Further, according to the beverage dispensing device 100 of the present embodiment,
since, as illustrated in FIGS. 3A to 3C, the fulcrum shaft 23 having an axis orthogonal
to the front-rear direction is disposed on the front side of the tap base 30 and the
tap head 20 is joined to the tap base 30 in an openable and closable manner with respect
to the tap base 30 by turning motion about the fulcrum shaft 23 and configured to
be able to be positioned to a use posture in which the tap head 20 is locked on the
tap base 30 side and a maintenance posture in which the tap head 20 is turned upward
with respect to the tap base 30, the beverage dispensing device 100 excels in maintainability
for the beverage lead-out path 10 including the flexible tube 11.
[0103] In particular, according to the beverage dispensing device 100 of the present embodiment,
since it is configured such that when the tap head 20 is in the use posture, the beverage
dispensing device 100 holds the tube joint 12 between the tap base 30 and the tap
head 20 and when the tap head 20 is in the maintenance posture, the tap head 20 is
turned to a position at which the entire beverage lead-out path 10 can be visually
recognized in the tube housing portion 80 on an upper surface of the tap base 30 and
the beverage lead-out path 10 is insertable and removable into and from the tube housing
portion 80 without using a tool, it can be said that the beverage dispensing device
100 extremely excels in maintainability of the beverage lead-out path 10 including
the flexible tube 11 (Claim 11).
[0104] In addition, according to the beverage dispensing device 100 of the present embodiment,
since the beverage lead-out path 10 further includes the dispensing nozzle 90, as
also illustrated in FIGS. 3A to 3C and 4 and the dispensing nozzle 90 is formed in
a truncated cone shape that has inner diameter dimension gradually increasing from
the base end side toward the tip end side, the beverage dispensing device 100 is suitable
for preventing foam from being generated at the time of beverage dispensing.
[0105] In other words, when the inner diameter of the flexible tube 11 is too small for
flow velocity, flow of beverage dispensed from the dispensing spout 5 becomes unstable
and foam is likely to be formed when the beverage is poured into a glass. Therefore,
in the beverage dispensing device 100 of the present embodiment, the flow of beverage
is straightened by installing the dispensing nozzle 90 the inner diameter of which
is gradually increased and foam forming at the time of dispensing beverage is thereby
prevented.
[0106] In addition, according to the beverage dispensing device 100 of the present embodiment,
since it is configured such that when the tap head 20 is in the use posture, the beverage
dispensing device 100 presses and holds the dispensing nozzle 90 (in this example,
a portion placed on the nozzle holding plate 91) between the tap base 30 and the tap
head 20 and when the tap head 20 is in the maintenance posture, the beverage lead-out
path 10 including the dispensing nozzle 90 is insertable and removable into and from
the tube housing portion 80 without using a tool, the beverage dispensing device 100
is more suitable as a structure that excels in maintainability (Claim 12).
[0107] As described in the foregoing, according to the beverage dispensing device 100 and
the beverage server 1 including the beverage dispensing device 100 according to the
present embodiment, the beverage dispensing device 100 and the beverage server 1 excel
in manual operability, facilitates adjustment of foam, and provides high reproducibility
of adjusted foam quality.
[0108] Note that the beverage dispensing device and the beverage server including the beverage
dispensing device according to the present invention are not limited to the above-described
embodiment, and it is needless to say that various modification can be made without
departing from the spirit and scope of the present invention.
Reference Signs List
[0109]
1 Beverage server
2 Barrel
2a Beverage extraction unit
3 Holding container
3a Main body
3b Opening/closing door
4 Gas feeder
4a Gas feed pipe
5 Dispensing spout
10 Beverage lead-out path
11 Flexible tube
12 Tube joint
13 Connection tube
20 Tap head
21 Tube holding surface (on the tap head side)
22 Nozzle holding arm
23 Fulcrum shaft
24 Engagement claw
25 Slide guide portion
30 Tap base
31 Tube holding surface (on the tap base side)
32 Attachment portion
33 Insertion hole
34 Axial support portion
40 Slide piece
41 Slide spring
42 Fitting groove
43 Guiding slot
44 Mountain portion
45 Cam groove
46 Cam groove
50 Opening/closing piece
51 Opening/closing spring (biasing spring)
52 Pressing portion
53 Cam follower portion
54 Elastic pressing force adjustment mechanism
60 Foam-forming piece
61 Foam-forming spring (biasing spring)
62 Pressing portion
63 Cam follower portion
64 Elastic pressing force adjustment mechanism
70 Operation lever
71 Lever shaft
72 Joint portion
73 Fulcrum portion
74 Action portion
75 Lever body
80 Tube housing portion
81 Tube holding portion
81a Front-side holding portion
81b Rear-side holding portion
82 Nozzle housing hole
83 Joint housing portion (recessed housing portion)
84 Flange portion holding portion (recessed housing portion)
85 Opening/closing groove
86 Foam-forming groove
87 Connection tube housing groove (recessed housing portion)
88 Tube guiding surface
89 Holding plate guide surface
90 Dispensing nozzle
91 Nozzle holding plate
100 Beverage dispensing device
P0 Stop position
P1 Dispensing position
P2 Continuous dispensing position
P3 Foaming position
1. A beverage dispensing device switchable among dispensing of an effervescent beverage,
dispensing stop, and foaming by opening and closing an inner cavity of a flexible
tube in accordance with operation by an operator, the beverage dispensing device comprising:
an operation lever operable by an operator to a dispensing position to dispense the
effervescent beverage, a foaming position to dispense foam of the effervescent beverage,
and a stop position to stop dispensing of the effervescent beverage and foaming;
a slide piece configured to slidably move in a front-rear direction in association
with operation of the operation lever;
an opening/closing piece configured to open and close the inner cavity by advancing
and retracting in an opposing direction to the flexible tube by action of a cam associated
with sliding movement of the slide piece in accordance with operation of the operation
lever and pressing the flexible tube only with elastic pressing force of a biasing
spring; and
a foam-forming piece configured to form foam by advancing and retracting in an opposing
direction to the flexible tube at a position on a dispensing side of the opening/closing
piece by action of a cam associated with sliding movement of the slide piece in accordance
with operation of the operation lever, pressing the flexible tube only with elastic
pressing force of a biasing spring, and narrowing the inner cavity.
2. The beverage dispensing device according to claim 1, wherein
a mechanism of the cam
when the operation lever is positioned at the stop position, positions the opening/closing
piece and the foam-forming piece at an advanced position with respect to the flexible
tube,
when the operation lever is positioned at the dispensing position, positions the opening/closing
piece and the foam-forming piece at a retracted position with respect to the flexible
tube, and
when the operation lever is positioned at the foaming position, positions the opening/closing
piece at a retracted position with respect to the flexible tube and positions the
foam-forming piece at an advanced position with respect to the flexible tube.
3. The beverage dispensing device according to claim 2, wherein
the operation lever is configured to be tiltably operable along the sliding direction
and, when in the sliding direction, a dispensing side of the effervescent beverage
is assumed to be a front and an opposite side to the dispensing side is assumed to
be a rear,
when no operational force is exerted on the operation lever, is positioned at the
stop position at which the operation lever is in a posture in which an axis of the
operation lever stands vertically,
when an operational force tilting the operation lever to a front side is exerted on
the operation lever and the operation lever is in a first forward tilting posture,
is positioned at the dispensing position, and
when an operational force tilting the operation lever to a rear side is exerted on
the operation lever and the operation lever is in a rearward tilting posture, is positioned
at the foaming position.
4. The beverage dispensing device according to claim 3, wherein
the operation lever is configured to be tiltably operable to a second forward tilting
posture by an operational force, the operational force tilting the operation lever
to a front side of the first forward tilting posture, being exerted on the operation
lever and, when the operation lever is in the second forward tilting posture, is positioned
at a continuous dispensing position at which a dispensing state of the effervescent
beverage is maintained, and
a mechanism of the cam, when the operation lever is positioned at the continuous dispensing
position, positions the opening/closing piece and the foam-forming piece at retracted
positions with respect to the flexible tube and, when no operational force is exerted
on the operation lever, maintains the retracted positions.
5. The beverage dispensing device according to claim 2, wherein
the slide piece includes a cam groove for an opening/closing piece, the cam groove
being formed on an upper surface of the slide piece, and a cam groove for a foam-forming
piece, the cam groove being formed on the upper surface of the slide piece,
each of cam follower portions of the opening/closing piece and the foam-forming piece
is engaged with one of the cam grooves in an advanceable and retractable manner along
an inclination of a cam surface of the cam groove, and
a cam groove for the foam-forming piece has a cam profile set longer than a cam groove
for the opening/closing piece in such a way that when the operation lever is operated
to the foaming position, the cam groove for the foam-forming piece maintains a non-operating
state of the foam-forming piece in a sliding movement direction longer than the opening/closing
piece, as action of a cam associated with sliding movement of the slide piece.
6. The beverage dispensing device according to claim 1 further including an elastic pressing
force adjustment mechanism configured to adjust elastic pressing force of the biasing
spring by the opening/closing piece or the foam-forming piece.
7. The beverage dispensing device according to claim 1, wherein a mechanism to narrow
the inner cavity by advancement and retraction of the foam-forming piece elastically
deforms the flexible tube with a recessed pressing portion of the foam-forming piece
and causes only one narrowed flow path to be generated in the inner cavity of the
flexible tube.
8. The beverage dispensing device according to claim 1 including
a tube housing portion including a recessed housing portion configured to house the
flexible tube along the sliding direction and a tube holding portion configured to
house and hold the flexible tube,
wherein when it is assumed that in the sliding direction, a dispensing side of the
effervescent beverage with respect to a position at which the foam-forming piece advances
and retracts to and from the flexible tube is a front and an opposite side to the
dispensing side is a rear,
the tube holding portion includes a front-side holding portion configured to hold
the flexible tube in a recessed housing portion at a position on a front side of the
foam-forming piece and a rear-side holding portion separated from the front-side holding
portion in the sliding direction and configured to hold the flexible tube in a recessed
housing portion at a position on a rear side of the foam-forming piece, and
the front-side holding portion and the rear-side holding portion are configured such
that length in the sliding direction of a holding portion in the front-side holding
portion is shorter than that of the rear-side holding portion.
9. The beverage dispensing device according to claim 8, wherein
the beverage dispensing device uses a beverage lead-out path formed by the flexible
tube, a connection tube connected to a barrel side, the barrel containing the effervescent
beverage, and a tube joint configured to join the connection tube and the flexible
tube, and
the tube housing portion includes a connection tube housing groove configured to house
the connection tube, a joint housing portion configured to house the tube joint, and
the tube holding portion configured to house and hold the flexible tube in this order
from a rear side.
10. The beverage dispensing device according to claim 1 including:
a tap base; and a tap head covering an upper portion of the tap base,
wherein a housing structure is formed by placing the tap head on top of the tap base
in a vertical direction,
the flexible tube is housed in a tube housing portion inside the tap base along a
sliding direction of the slide piece and horizontally,
the slide piece is installed inside the tap head in a slidably movable manner in a
longitudinal direction of the flexible tube housed in the tube housing portion, and
the operation lever is installed projecting upward on a front-side upper portion of
the tap head to be able to slidably operate the slide piece by tilting operation in
the sliding direction.
11. The beverage dispensing device according to claim 10, wherein
on a front side of the tap base, a fulcrum shaft having an axis orthogonal to the
sliding direction is disposed, and
the tap head
is joined to the tap base in an openable and closable manner with respect to the tap
base by turning motion about the fulcrum shaft and is configured to be positionable
to a use posture in which the tap head is locked on the tap base side and a maintenance
posture in which the tap head is turned upward with respect to the tap base,
when being in the use posture, holds the flexible tube in the tube housing portion
between the tap base and the tap head, and
when being in the maintenance posture, is turned to a position at which the entire
flexible tube can be visually recognized in the tube housing portion and makes the
flexible tube insertable and removable into and from the tube housing portion.
12. The beverage dispensing device according to claim 11, wherein
the beverage dispensing device further uses a dispensing nozzle connected to a tip
of the flexible tube,
when the tap head is in the use posture, the beverage dispensing device presses and
holds the dispensing nozzle between the tap base and the tap head, and
when the tap head is in the maintenance posture, the beverage dispensing device is
configured such that the dispensing nozzle is insertable and removable into and from
the tube housing portion.
13. A beverage server comprising the beverage dispensing device according to any one of
claims 1 to 12.