CA1331972C

CA1331972C - In-home drink dispenser

Info

Publication number: CA1331972C
Application number: CA 523341
Authority: CA
Inventors: Edward Lewis Jeans
Original assignee: Cadbury Schweppes Ltd
Current assignee: Mondelez UK Holdings and Services Ltd
Priority date: 1985-11-20
Filing date: 1986-11-19
Publication date: 1994-09-13
Anticipated expiration: 2011-09-13
Also published as: EP0223209A3; AU6574586A; LV11307A; EP0223209A2; LV11307B

Abstract

ABSTRACT OF THE INVENTION

Disclosed is a post mix in-home carbonated drink dispenser which has a novel expansion chamber and an anti-surge valve. The expansion chamber is a gradually expanding chamber which reduces carbonation loss as the carbonated liquid passes from the carbonator to the point where the liquid is discharged. The anti-surge valve, which is provided between the carbonator and the expansion chamber is designed to reduce the spitting and sputtering often experienced on start-up of a drink dispenser. The dispensing valve of the present invention is part of the carbonator and not the dispensing head. This means that no carbonated water exists outside the carbonator. In addition, the dispenser is provided with a thin gas cylinder connecting probe which provides for a simple and easy to use CO2 cylinder connection.

Description

~ 3 3 ~

IN-HOME DRINK DISPENSER ~ -' This invention ralates to apparatus for dispensing beverages in general, and more particularly to an improved in-home drink dispenser, particularly useful in dispensing carbonated drinks made of a mixture of a concentrate (e.g., a syrup) and a diluent (e.g., carbonated water).
'.. . ~' ' BACKGROUND OF T~E INVENTION
''"''''''';"~' In prior United States Patents 4,408,701; 4,328,909: 4,555,371;
,:: " .: .:
4,363,424; 4,523,697; 4,520,950; 4,570,830; 4,564,483 and ~-~10 4~664,2g2 various aspects of an in-home drink dispenser are described. The dispensers disclosed therein have been found to work quite well, particularly the embodiments utilizing gravity feed of the concentrate, for example, the system disclosed in ~ -U.S. Patent No. 4,570,830. There are, however, certain problems - `;`
'I5 with these previous systems. One problem is in maintaining the .. . .
desired degree of carbonation in the drink. Another problem encountered ------------------------------------ --------------- ~-~
. " . :

-` 1331972 ~:
, ~ .

is the spitting or sputtering which occurrs upon the initial opening of the dispense valve due to a build up of pressure.
~ , ' The previously disclosed system included passages for the diluent in a manifold. There was an area between the connection to a carbonator tank and the dispensing valve where diluent was maintained when the carbonator was disconnected from the system. If the diluent, e.g., carbonated water, was left in these passages for a long period of time, it would, of course, lose its pressurization and its carbonation. Although this is not a major problem, it was felt desirable to avoid this.

In an in-home drink dispenser, it is, of course, important to know how much carbonated water is left and also how much carbon dioxide is left. Knowing when one ~
is about to run out of carbon dioxide is of qreat ` ;
importance, particularly where a cylinder is not immediately on hand. The carbonator can be refilled 20 with water and ice, however, if one runs out of carbon ` ~i dioxide, at a time when the supplier is not open for `~
business, it may be necessary to wait, possibly over a weekend, to get a new cylinder. Thus, the need for an ~ ;~
indication of this level is particularly important.
Furthermore, in regard to the carbon dioxide cylinders, since the cylinders are being handled by people not used . . . : . .. ,, .. . . . ~ . . , -to such, there is a need to take measures to protect the cylinders and to provide for ease of use and insertion and removal from the drink dispenser.

SUMMARY OF THE INVENTION
. :
S The present invention provides a particularly attractive in-home drink dispenser which is easy for the consumer to use and which provides a drink which has a proper and ;
repeatable strength and carbonation.

A number of features are incorporated into the drink , ..
dispenser of the present invention which give it these qualities. In the first instance, to avoid loss of carbonation when dispensing, a novel expansion chamber ;
is provided. This expansion chamber, which is kept cold, is a gradually enlarging chamber which permits a ~ ~
15 gradual expansion and lowering of pressure from the ~: ;
pressure inside the carbonator tank of approximately 50 psi to atmospheric pressure at the point where the -diluent is discharged from the machine. This, in ~`
combination with an arrangement in which it is insured `
that the glass being filled is positioned so that discharge takes place tangeneially to the inside surface of the glass, leads to maintaining the high level of carbonation which is achleved within the carbonator.
. .
Spitting and sputtering is avoided on initial startup of ;
, . :. .
' ~:

~33~72 the system by providing in the system, preceding the expansion chamber, an anti-surge valve. This anti-surge valve acts to reduce the pressure in the expansion ehamber to a level which will allow dispensing, upon the initial opening of the dispensing valve without spitting or sputtering. In the illustrated embodiment, the expansion chamber and anti-surge valve are installed within the carbonator tank.

Purthermore, the dispensing valve, itself, i.e., the valve that opens to permit flow of the carbonated water out into the glass, is formed as part of the carbonator rather than part of the dispense head. This means that carbonated water no longer exists outside the - -~
carbonator. The carbonator includes a connector block 15 by means of which it is coupled to a source of carbon -dioxide for carbonating, and within this connecting block there is disposed a shuttle valve which acts as a ;
dispensing valve~ The shuttle valve has a radial inlet ~;~
adapted to be coupled to the outlet from the carbonator tank and an axial outlet.
;~; ''~;
A flexible rubber dispensing spout is held within a cradle within the dispense head and is in an abutting relationship with the shuttle valve, the shuttle valve ~ ;
normally being biased to a closed position. As in the previous dispenser, the concentrate, e.g., syrup is dispensed directly from the syrup package by rotating .~

133~972 the cap of the package to open a valve formed therein.
This rotation is accomplished by means of a pneumatic actuator which rotates an annular disk, which engages the cap. In accordance with the present invention, this actuator is also coupled to the cradle holding the flexible spout. When the pneumatic actuator is operated, it moves the cradle, causin~ the shuttle valve to move inwardly to an open position to permit dispensing of the carbonated water through the spout.
10 Guide means are provided for guiding the connecting ~
block of the carbonator and insuring proper alignment of --both the gas connection, and the water outlet connection ;~ `
which operates the shuttle valve. Included is a locking apparatus to lock the carbonator in place when in proper 15 alignment. As with previous embodiments, the carbonator -simply slides in and out of position to allow ease of removal and insertion when the carbonator needs to be refilled. ;~
','.'',,';''`'.
As with previous systems, it is necessary to connect a ;
carbon dioxide cylinder to the system. Again, this is done with a connection which, when the connection is made, opens a valve to allow a flow of carbon dioxide out of the gas cylinder. In the connections disclosed in the aforementioned appIications, a connecting means which provided a relatively high mechanical advantage was provided. This was thought necessary at the time because of the high pressure acting on the probe ~"'`'.

- ~:

133~72 . .

entering the cylinder, this pressure being too high for the average person to operate against when inserting the cylinder. This, of course, made insertion of the cylinder more difficult. However, in accordance with the present invention, a very thin probe is utilized.
Because the probe is so thin, the area on which the high pressure acts is materially reduced and the force generated is not beyond that which the average person ~-can act against. Thus, a simple connection with a 10 fitting containing the probe which also has pins which ~ :
fit into appropriate slots on a member secured to the top of the cylinder is utilized. In the illustrated ~ -embodiment, the gas tank is suspended from the fitting containing the probe, the fitting also containing a --lS pressure regulator. By so suspending the gas cylinder, `
it is possible to measure its weight by providing an upward bias to the probe fitting, using suitable springs.

In accordance with the present invention, the fitting to which the gas cylinder is attached is supported rotatably within a hood, the hood forming a lever which i3 biased upwardly. The hood rotates on a shaft supported in a bracket which is attached to a wall of ;
the dispenser. Springs act between the bracket and the ~5 hood to bias it upwardly. A mechanism, including a planar member, which is guided in a curved ~lot, maintains the probe vertical so that in any position the ' 1331972 ; -7 user can easily insert a gas cylinder onto the probe without difficulty. The planar member which is guided and which maintains the pin vertical is also provided with indicators visible through a window to indicate the -degree of the fullness of the cylinder. A full cylinder will act against the spring and pull the hood all the way down. As the cylinder is used up, the hood will -begin to move upwardly until, when the cylinder is . .: . . . ::
completely empty, the hood will be fully up. In accordance with the present invention, the spring is adapted to begin moving the gas cylinder upward only over the last part of the supply, e.g., the last ten percent. Thus, as soon as movement starts the user ;~--,: ~., .
knows that he is getting near the end of his supply.

: ~
lS The cylindrical member which engages the probe fitting `~
is formed with a pair of arms. The arms are aligned with axial slots which are used for engaging pins `
positioned on the probe fitting when locking the two ;
fittings together. By aligning the arms with the axial slots, the user is given a guide and knows exactly how to line up the gas cylinder to insert it onto the probe . .
fitting. Preferably, on the hood, there are alignment markings and an arrow, indicating to the user the direction in which to rotate the handles or arms so as to lock the gas cylinder in place. In the illustrated embodiment, there are holes at the ends of the arms through which a finger can be inserted to hold the gas ' ~ ' ;' ~ ,"

..
` ; 8-cylinder.

Also, in the preferred embodiment~ a cover is placed ;-over this fitting for decorative and protective purposes. The cover has a tear-away tab on the top to ;
allow access to the cylindrical member and fitting when attachinq to the probe fitting. The tab cover, however, provides protection during shipping and remains in place : . . .: .
until the cylinder is to be used. - ~

: ~ ~.:.
BRIEF DESCRIPTION OF THE DRAWINGS
~. .

FIG. 1 is a perspective view of the in-home drink dispenser of the present invention.

FIG. 2 is a similar view showing the door to the carbonator compartment and CO2 compartment opened. ~
:" ::
FIGS. 3 and 4 are drawings illustrating the mating mounting assemblies ~or the drink dispenser carbonator.

FIG. 5 is an exploded view of the carbonator and mounting assembly.

FIG. 6 is an exploded of the mounting assembly in larger scale.

FIG. 7 is a cross section through a portion of the ~':

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~ .

"

.. .. ~ ~, ~
g , mounting assembly containing a bore for the shuttle. ; ~
: .~: ' PIG. 8 is an exploded view of the portion of the mounting assembly containing the cross-section of FIG 7.

FIG. 9 is an exploded view of the dispensing assembly -and dispensing head of the drink dispenser of the present invention.

FIG. 10 is a partially cutaway plan view of the -dispenser assembly.
' ~: ''-.' ' FIG. 11 is a cross section through the dispensing head. ~

10 FIG. 12 is an exploded view of the actuating arrangement ~ ;
of the dispense head.
", ~ ' ,' FIG. 13 is a bottom view of a portion of the dispense ~
head showing the manner in which the cradle is guided. ;i FIGS. 14 and 15 are views showing additional details of the actuator mechanism.
' FIG. 16 is a perspective view of the syrup package of the present invention.

FIG. 17 is an exploded view of the parts of the package of ~IG. 16.

.~.'. '' ~;:

~- 1331972 ` ~ `
--1 o--FIG. 18 is a cross-sectional view through the package of FIG. 16. ;~-FIG. 19 is an exploded view of the assembly inserted inside the carbonator.

5 FIG. l9A is an elevation view of this assembly partially ;
in cross section. ~ ~ ~

FIG. l9B is a plan view of this assembly. ~-'~
FIG. 20 is a plan view partially in cross section of the expansion chamber of FIG. 19.

FIG. 21 is a first cross section through the expansion chamber of FIG. 20 taken along the lines 21-21.
- .
FIG. 22 is a cross section along the lines 22-22 of FIG.
20.

FIG. 23 is a cross section along the lines 23-23 of FIG.
20.
. ~ :
FIG. 24 is an elevation view of the expansion chamber.

FIG. 25 is a partial cross section through the feed line and diffuser assembly within the carbonator.

,~

~` 1 3 3 1 9 7 2 FIGS. 26 and 27 are cross-sectional views of portions of the diffuser assembly and resin bed.

FIG. 28 is a cross section through the resin bed showing its connection to the chamber containing the anti-surge valve.
'',',~'"
FIG. 29 is a cross section of the anti-surge valve of the present invention.
- ~''':
FIG. 30 is an exploded view of the elements attached to the top of the C02 cylinder.

FIG. 31 is an elevation view partially in cross section showing the manner in which the C02 assembly is attached to a probe fitting in which is incorporated a regulator and also shows part of the weighing mechanism. `'~
',:" ':;
FXG. 32 is a perspective view showing the cylindrical 15 member which permits attachment to the probe fitting of -~
FIG. 31.

FIG. 33 is an exploded view of the weighing mechanism of the present invention.

FIGS. 34 and 35 are elevation views, partially in cross , . , 2~ section and partially in phantom showing the operation o~ the weighing mechanism, FIG. 34 showing the weight , ~:

.: .

mechanism with an empty cylinder and FIG. 35 showing the weighing mechanism with a full cylinder.

FIG. 36 is a perspective view showing one manner of maintaining a tangential relationship between the ~ ;
dispensing spout and a glass or cup irrespect of the diameter of the cup.

PIGS. 37a-c show how this device maintains this relationship for different sizes of cups.

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1 and 2 are perspective views of the improved in-home drink dispenser of the present invention. FIG. 1 shows the drink dispenser 11 with its doors closed.
FIG. 2 shows the dispenser 11 with its carbonator door 13 and CO2 compartment door 15 opened, and the CO2 ~
15 cartridge 17 and carbonator tank le removed. Also ~ -visible in FIG. 2 is the syrup cartridge 19. The syrup cartridge 19 is enclosed by a clear or smokey plastic enclosure 21 to finish off the outward appearance of the ' dispenser. ~he CO2 cylinder 17 has a cover 23 for ease in handling and also for mounting into the dispenser in ;' a manner to be described below. The carbonator 18 has an LCD liquid level gauge 31 and a carbonator connecting assembly 33. The connecting assembly 33 is ~; adapted to mate with an alignment pin 35 within the ~:?~ :
.~.:
; . ~ ' compartment behind door 13. Below the pin 35 is a locking mechanism 37 for locking the carbonator in place once it is inserted.
` ''~', '.
FIGS. 3 and 4 show in more detail the carbonator connecting assembly 33 and pin 35 along with the locking assembly 37. The pin 35 and locking mechanlsm 37 are contained within a molded base member 39 which is ;
mounted between upper wall 43 whlch abutts the top of member 39 and lower wall 44 which extends below member .. - .:
39. Walls 43 and 44 may be separate members or may be -joined along one end in which case the wall structure will fit around base member 3g of the carbonator compartment. Member 39 has a rear wall 45 perpendicular ; ;
thereto from which pin 35 extends. Member 39 also has a ~;
bottom wall 47 and a side wall 51. The side wall 51 is actually the face of the actuator compartment depicted ~n Pig. 9. As can be seen in ~ig. 9, wall 51 may split into two sections 51a and 51b. The locking mechanism 37 is installed in a recess formed by an L-shaped part 53 extending down from the bottom wall 47. Also extending out from the rear wall 45 is a tubular fitting 55 containing an O~ring seal 57. Seen extending from the ~ ;
end of the fitting 55 is a pin 59 which comprises the ~ ;
tip of a Schrader type valve mechanism which in the , position shown is closed but which when then tip 59 is pushed in will be opened. This tubular fitting is coupled to the carbon dioxlde supply cylinder through an 1331~72 appropriate pressure reducing valve to supply carbon dioxide to the carbonator 18 for carbonating the water contained therein. The valve 55 mates with a cylindrical fitting 61 on the carbonator connecting assembly 33 seen in FIG. 4. The pin 35 fits into an appropriately tappered bore 63 formed in carbonator ;
connecting assembly 33. Also seen on the carbonator connecting assembly 33 is the outlet 65 for the carbon dioxide leading into the carbonator 18 in a manner which will be seen in more detail below. The water which is carbonated leaves the carbonator and enters an inlet 67 ~
in the carbonator connecting assembly 33 from which it --is conducted to an outlet spout which engages the carbonator connecting assembly 33 in a manner to be described in detail below.

Returning to FIG. 3, the locking mechanism comprises a handle 69 mounted to a cylindrical member 71 having a shaft 73 extending through the base of the L-shaped member 53. In this manner, the handle 69 and cylindrical member 71 are mounted for rotation about the axis of ~he shaft 73. Formed in the surface of the cylindrical member 71 is a cam 75. Cam 75 engages a slot 77 in the rear wall of the L-shaped portion 53.
~xtending upwardly from the cylindrical member is a stop member 79. The stop extends through an appropriate opening 81 in the bottom wall 47 of the member 39. The cam 75 is formed such that rotation of the handle 69 in ;~
.~ ~.. ~ .

...... ...

~ 1331~72 a clockwise direction will result in the stop member 79 -being moved in the direction of arrow 83 to the position shown in dotted lines. In that position, it engages the rear surface of the carbonator connecting assembly 33 to lock the carbonator in place and prevent the pressure present at the fitting 55 from blowing the carbonator outwardly.
" ~, ~IG. 5 is an exploded view of the carbonator 18 and the carbonator connecting assembly 33. The outer body 25 of 10 the carbonator is made of molded plastic. Inserted into -the top of body 25 is a molded plastic ring 101. Into the plastic ring 101 a stainless steel carbonator tank 103 is inserted. The tank 103 contains holes 105 and 107. When in place, these holes receive fitting 109 and ~:
111. The fittings 109 and 111 are, respectively, the carbon dioxide inlet and the carbonated water outlet.
They, respectively, are inserted into the openings 65 ; ;
and 67 of the carbonator connecting assembly 33 s~en in FIG. 4. ~`

, . ~ ~, ., . !
The carbonator 18 i9 provided with a handle made up of a portion 29b molded into the body 25 and another portion 29a inserted thereover. A liquid crystal strip 31 `
containing an adhesive backing is attached to the tank !
' . .; ' .' .,.~,, 103 through an opening 113 provided in the outer case 25 behind handle portion 29b.

, ,.` :.~ ~' ,.- ~,,;'~
-,. ~

:` 1331972 The liquid crystal strip 31 responds to temperatures close to 0C, having one color for temperatures above and another for temperatures below. The handle portions 29a and 29b are provided with opening so the strip 31 may be viewed therethrough. The carbonater is normally filled with water and ice. Thus, strip 31 gives an indication of water level in the tank.

The ring 101 contains threads to engage the lid 27.
Thus, the lip 115 of the tank is trapped between the mounting ring 101 and the lid 27 to obtain a good seal.
The carbonated water outlet opening bore 117 can be seen on the front of the carbonator connecting assembly 33.
Into bore 117 is inserted a shuttle valve assembly. At the base of the bore 117, which is in communication with the inlet 67 seen in FIG. 4, is inserted a biasing spring 119. Next inserted is an O-ring seal 120 and a shuttle member 121. The shuttle member 121 has an inlet port 123 and an outlet port 125. From the bottom of the carbonator connecting assembly 33 a guide and stop member 127 for the shuttle member 121, a biasing spriny 129 and a retaining disk 131 are inserted.
'; ~ ': :.,'.

This assembly can be seen in more detail in FIGS. 6, 7 and 8. FIG. 6 is an exploded view of the carbonator ~ ~;
connecting assembly 33 in larger scale, showing in more r;
detail the shuttle member 121 and O-ring seal 120. FIG.
7 is a cross section through the portion of the ';~. ''.; .~:
. .

:, :

` ~ 133~72 carbonator connecting assembly 33 containing the bore 117. As can be seen, the inlet 67 from the carbonator couples to a passage 135 terminating in an outlet opening 137. The outlet opening 137 is surrounded by S the O-ring 12a. The flat top portion 139 of the shuttle member 121 slides against this O-ring. In the position ~;
shown in FIG. 7, a seal is formed. There is no ~ -~
connection to the inlet 123 in the shuttle member 121 and the O-ring seal 120 prevents escape of any 10 carbonated water. The spring 119, in this position, is ;~
biasing the shuttle member 121 in 2n outward direction up against the stop formèd by the stop member 127. -As illustrated, stop member 127 is biased upwardly by spring 129, held in place by the disk 131. ~hese parts are shown in exploded view in FIG. 8. As illustrated in the cross section of FIG. 7, the shuttle member 121 has - ;
a cylindrical recess 141 in its rear portion into which j the spring 119 is inserted. The spring acts between ~ ;-this point and the rear wall of the bore 117. To provide the necessary stops, the bottom o~ the shuttle member 121 has formed therein a slot 143. When the shuttle member 121 is pushed inwardly against the biasing force oE spring 119, in a manner to be described `
more fully below, the opening 123 is moved to a position where it is aligned with the outlet 137. The outlet 137 and inlet 123 are sealed by the O-ring seal 120.
Carbonated water can then flow out of the outlet 125 to : .
~ ' ., ~,.

~, the dispensing apparatus which will be described in detail below.
~ '. '~' FIG. 9 is an exploded view of the dispensing assembly of the drink dispenser of the present invention. It includes a base portion 201 of molded plastic. The base portion between walls 43 and 44 of FIG. 3 and forms the .
bottom wall 47, rear wall 45 and a portion of side wall 51 previously described. In addition, the L-shaped portion 53 is integrally molded in this base. Thus, the locking mechanism 37 is again illùstrated as are the pin 35 and tubular fitting 55.
, Formed in the base 201 is an annular wall 203 having an .. ~, ~.
annular base 205 with an opening 207 therein. A
rotatable annular disk 209 is inserted into the opening so formed. This disk 209 is adapted to engage a valving mechanism built into the syrup package in a manner to be ;~
described more fully below.

, . . .
~he base 201 also receives a pneumatic actuator 211 !,~
which includes a cylinder assembly 213 having an inlet 215 for receiving carbon dioxide to actuate it, a piston 217 which is inserted into the cylinder 213, a slide ~_ , .
member 315 for operating the rotatable disk 209 and a biasing return spring 221 In a preferred embodiment a second inlet 216 in cylinder 213 via tube 310 may be used in addition to or in place of 5pring 221 to return ~J

1331972 :
-19- ~: ~
the piston to the unoperated position. Also forming part of this actuatin~ mechanism is a actuator for opening the carbonator valving mechanism described in connection with FIGS. 6-8. This includes a cradle 223 of molded plastic and a rubber insert 225 which forms the carbonated water outlet (i.e., a spout). The cradle and insert engage with the shuttle member 121 of FIGS.
6-8 in a manner to be described more fully below. The cradle 223 is coupled to the slide member 315 by a pin ;~
317 which is inserted into slot 319 formed in cradle 223 such that the carbonator water valve is operated at the ;
same time as the disk 209 is operated to open the valve in the syrup package so that carbonated water and syrup are simultaneously dispensed.
'' '' . .. " i-" ~ , 15 Also illustrated is a spool valve 231 and an actuating ;i;~
mechanism 233 for the spool valve. Actuating mechanism 233 comprises a hinged arm which acts against the stem -~
235 on the spool valve to cause carbon dioxide supplied;;~ ~i over a line 309 to the valve to be coupled over a line 2~ 311 to the inlet 215 o~ the cylinder 213 to operate the actuating mechanism. The pneumatic actuator 211, rotatable disk 209, and cradle 223 ar!e retained in ;
position by a cover 247 which i~ placed over the base 201. The base 201 is formed with clips 243 molded into 2S it so that the cover 247 will snap into place retaining the various parts in their proper places. Alternately, the base 201 and cover 247 may be fastened together with screw fasteners. An additional bottom cover 245 may also provided ~or decorative and sanitary purposes.

FIG. 10 is a partially cut-away plan view of the dispenser assembly. At the left of the Figure, the alignment pin 35 is visible as is the fitting 55 with O-ring 57. As illustrated, this fit~ing 55 is threaded into a portion 301 formed in the base. Coupled to the end of fitting 55 is a supply line 303 which extends to a T-fitting 305. Gas from the cylinder 17 is supplied to the T-fitting over line 307. The second branch 309 ~-of the T-fitting goes to tbe spool valve 231, the outlet of which, via line 311, is co~pled to the inlet of the ;
cylinder 213. A piston rod 313 which forms a portion of piston 217 is visible in this figure.

Referring to FIG. 12, which is an exploded view of the actuator arrangment. The actuator 233 which acts against the stem 235 of the spool valve 231 is shown as are the tubes 309, 310 and 311: tube~ 310 and 311 ~ ;
connecting to the cylinder 213. As illustrated, the piston rod 313 is coupled to a slide member 315. The slide member 315 has a downwardly extending pin 317 which engages a slot 319 in cradle 223. Cradle 223 also contains a slot 321 in its bottom, better seen in the bottom view of FIG. 13. The slot 321 is also visible in FIG. 11, which is a cross section through the dispensing unit including cradle 223. As illstrated, 510t 321 is : '~ . ,, '.'.',,','.'';~'-':-.:
: .:

placed over a rail 325 and rides thereon. At each end of slot 321 are oppposed half cylindrical parts 323 which engage rail 325 to guide cradle 223 and reduce friction.

At the end of the slide member 315 is a cross-shaped ~ ;
projection 327 over which spring 221 fits. As can be -seen from FIG. 10, spring 221 abuts against a wall 331.
It biases the slide member 315 to the right thereby ~ -biasing the piston within cylinder 213 in the same ~ -~
direction. It also biases the cradle 223 by means of pin 317 and slot 319 to the closed position shown in -~
FIG. 10. In addition to or in place of spring 221, a second inlet 216 in cylinder 213 may be provided. The inlet 216 is supplied with gas from cylinder 17 via tube 310 when spool valve 231 is not being actuated. The gas 15 is supplied to the side of piston 217 opposite to the ~;
side supplied by inlet 215 and tube 311 so that member 315 and cradle 223 will be moved into the unoperated position. ~
: ~ "
As illustrated by ~IG. 12, rubber insert 225 is inserted into a recess formed for that purpose in cradle 223. The recess includes a horizontally extending portion 333 and a portion 355 angled downwardly. Thls forms the dispensing spout for the carbonated water and directs the carbonated water stream into a cup which is placed directly below the annular base 205 seen in Fig. 9.
Positioning of the spout, i.e., its downward angle and , " , .

~ 1331972 relationship to the side of the cup are important ~or good mixing and CO2 retention. The edge of portion 355 ~-is visible in FIG. 10 within the annular ring 209.

In the cross-sectional view of FIG. 11, the manner in ~ -which the rubber tubular member 225 rests within the craddle 223 is illustrated. In this cross section, the pin 317 within slot 319 is also visible.
` ;'''~', ','',' The rotatable disk 209 contains a slot 351 which is - ~
. ~ ..
adapted to engage a tab on the cap of the syrup package.
The body of the syrup package contains another tab which engages with the cover portion 247. (This is described ~ ;
in more detail below). When a glass to be filled is lifted up again the actuator 233 of FIG. 12 and also seen in FIG. 14, it presses against the stem 235 lS operating valve 231 to admit gas to the cylinder 213. `
The gas in cylinder 213 moves the piston 217 which ~;
cooperates with piston rod 313 to move the slide member 315 to the left, causing a rotation of the annular ring 209 thereby starting to open the valve in the syrup package. Once the pin 317 reaches the other end of the slot 319, it also begins to move the cradle 223. ~he end of the tubular insert 225 prior to movement is abutting against the the shuttle member 121. Thus, when the cradle 223 begins to move, the tubular insert 225 ;
forces shuttle member 121 to moved inwardly to bring the inlet 123 of shuttle member 121 beneath the outlet 137 -., :
' ''. '.', '''';',' '` 133~972 to cause a flow of carbonated water through the tubular rubber insert 225. Tubular insert 225 creates a seal ~ -with the shuttle outlet 125 to prevent leakage (see FI~S. 6, 7~ 8). When the pressure on the actuator 233 5 is released, the force of the biasing spring 221 moves - ~-the slide member 315 to the right, the gas in the cylinder 213 now being vented. As noted above this ~
return can also be done pneumatically or with air ~ ~;
pressure instead of or in addition to the spring. This begins immediately to close the valve in the package by rotating the annular ring 209 and as the pin 317 reaches the right hand side of the slot 319, returns the cradle -~
223 to the position shown in FIG. 10. The end of the rubber insert 225 and its location with respect to the point where the carbonator is inserted is visible in FIG. 3.
,, :. .
FIGS. 14 and 15 show some additional details of the actuator mechanism and the carbonator locking assembly.
The arm 69 and cylindrical member 71 are visible as is the cam 75 and the cam slot 77. As illustrated, a central shaft 73 is supported in a bearing formed within a downwardly extending cylindrical member 361 having an appropriate bore therethrough to permit rotation therein. Mounted to the top of the shaft 73 is the stop ~;
member 79. Member 79 moves up through the opening 81 so as to lock against the carbonator when the handle 69 is rotated to lock the carbonator in place. Also shown is '' ~ ' ' -' 1331972 - : , the alignment pin 35 and the fitting 55 with its 0-ring 57. As illustrated, the alignment pin can have a head 363 and be inserted through wall 365 and held in place with a spring clip retainer 3670 Also visible in the view of FIG. 15 is the end of the tubular insert 225 which abuts against and seals to the end of shuttle member 121 in the carbonator connecting assembly 33 and acts to open shuttle member 121 therein in the manner described above.

FIGS. 16-18 illustrate the syrup package of the present invention. In the illustrated embodiment the syrup package comprises three molded parts. The first of these is a body or container having a bottom, side walls ., .
and a top with a neck 403. At the base of a neck is a tab 405. The second part is an insert 407. The insert comprises a compensating chamber 409, at the top of :~
which there is formed a cylindrical portion 410 which, as can be seen from the cross section of PIG. 18, forms ;
a recess 411. Inside the recess is a control plug 412 having an arrowhead cross section. Extending from this cylindrical portion is a downwardly conically extending portion 413 and then a another conicai portion 415 extending slightly outwardly. Following this is another conical portion 417, but now extending inwardly and ;-~
forming a baffle. This rests on a plurality of legs 419, which extend down to a portion of annular shape 421 having a U-shaped cross section. Within this portion ,','~',''`'~

3 ~ 9 7 2 : --25- ~ -421 there is, thus, formed an annular recess 423. As illustrated by the cross section of FIG. 18, the annular - ~-cavity 423 receives the neck 403 of the container 401.
On the outside wall of portion 421 are formed three projections 425. There is also provided an axially upwardly projecting part 427 on the end of which there is a tab 424 projecting radially outwardly. During assembly, the tab 424 of portion 421 is brought into abutment with the tab 405 at the base of the neck 403 and the two parts fastened together by gluing, welding, mechanical lockingl etc.

The final part of the syrup package is a cap-like member 431, having an air inlet tube 433 extending upwardly therefrom. The air inlet tube terminates in a conical portion 435 at the top 437 of the cap 431. In the closed position shown, the top of the tube 433 seals externally against the recess 411 and internally against ~;
the arrowshaped control plug 412 at the top of the compensating chamber 409. Formed in the cap 431 are 20 three cam slots 439. These engage with the projections ~
425 on portion 421. Also formed in the cap 431 is a tab ; ~-`
441.
-:: :
,.,.. ,.:. ~
As previously discussed, the tab 441 will engage in the slot 351 in the annular ring 209 shown in ~IGS. 10 and 12 for example. The tabs 405 and 429 will engage in an appropriate slot 352 in the cover 247 shown in Fig. 9 so ;
.''~

. .

that the container is held fixed while the cap 431 can rotatP.
As the cap 431 rotates, the tube 433 is moved away from the recess 411 and the arrowshaped control plug 412 to permit a flow of air into the container. At the same time, the cap 431 is moved away from the insert 407 and a seal formed at point 451 between these two members is broken permitting the flow of syrup through an opening 453 in the cap 431. The operation of this lo type of packag is described in detail in my previous United States Patent 4,523,697; and more specifically in United States Patent 4,570,830.

Referring to FIGS. 4 and 5, it was noted that there were fittings 111 and 109 whiah couple~ respectively, with a gas outlet 65 of FIG. 4 and a water inlet 67 of FIG. 4. As described in connection with FIG. 5, these two fittings pass through openings 107 and 105 in the stainless steel carbonator tank 103. FIG. 19 is an exploded view of the assembly within the carbonator which these two fittings 111 and 109 mate. FIGS. l9A and 19B are plan and elevation views of this assembly. The gas inlet 109 is coupled to a fitting 501 which is in the nature of an elbow fitting. The carbon dioxide is coupled through an outlet 503 therefrom into a tubular member 505 mounted to a cylindrical flange 507 on a base member 509. Contained within the base : . .
portion of the tubular member 505 is a slow-feed valve of the ;
type described in United States Patent 4,564,483.

'''~;"~ '.' ''~

-;~ 1331972 A cover 511 is placed over the base 509. Gas flows between the base and cover and out through two diffusers 513 and 515. The diffusers are held in place by gasketed bolts 517 which thread into threaded bosses 51g formed in the base 509 with gaskets 521 interposed between the diffuser 513 and 515 and the cover 511 which has provided therein openings 523 for that purpose. The bolts 517 are provided with gaskets 518 to ensure that no gas leaks around the bolts. The diffusers are disclosed in more detail in United States Patent 4,520,950.

The carbonated water within the tank flows out through a resin bed assembly 525, the outlet 527 of which is coupled into an anti-surge valve assembly which is inserted into a chamber 647 formed within member 529. Resin bed assembly 525 is shown as .. :,-. .~:
having a sealed lid 539 to permit inserting new charges of resin as the old resin is used up. The outlet 639 of the anti-surge valve is positioned adjacent to the inlet 551 (see FIG. 21) of an expansion chamber 533 made up of a top hal~ 535 and a bottom half 537 onto which is also molded the gas inlet fitting 501.
Preferably all of these parts are of molded plastic and sealingly assembled to each other in the manner indicated. The expansion chamber 535 terminates in an outlet 541 which couples with the fitting 111 of FIG. 5.

` - 1331972 The nature of the parts 535 and 537 can be better seen with reference to FIGS. 20-26. Referring to FIGS. 20 and 24, the general nature of the expansion chamber is seen.
It has a generally spiral shape beginning at an inlet 551. The chamber gradually expands in size as it spirals around, finally reaching the outlet 541. In the cross section of FIG. 21, the inlet 551 is seen which then expands to the size 553 after 180 degrees, to size 555 after another 180 degrees, and to size 557 after 10 another 180 degrees, which is the size being closest to ~ ;
the size at the outlet 541. i ~-''''""'' ''..';
The cross section of FIG. 22 shows the outlet fitting -541 and outlet bore 559 and also portions 561 and 563 of ` ;
the expanding chamber. Each of FIGS. 21 and 22 also 15 shows the member 529 which forms the chamber 647 into `
which the anti-surge valve, to be described below in ~
... .. ... .
connection with ~IG. 29, is inserted. FIGS. 20, 23 and 24 also ~how the construction of the inlet 501 for gas. ~;~
Gas f}owing into the inlet 501, i.e., into its bore 567 - -which is closed off on the opposite side by a disk 569, seen in FIG. 20, then flows through a hole 571 into the outlet fitting 503 and then into the tubular member 505 ~ ~;
described above. Incoming gas flows through the passage ~;
601 in tubular member 505 seen in FIG. 25. At the base ~
25 of member 505 the slow-feed or two-speed feed valve ;
assembly 603 i~ installed. Gas flows out of the bottom of this assembly through openings 605 and 607 into the .,~. ' ~ ~, .

space between base 509 and lid Sll. It flows out of the diffusers 513 and 515 held in place by gasketed screws 517 with gaskets 521 interposed between the cover 511 and the diffusers 513 and 515 seen in FIG. 19. In the cross section of FIG. 27, the inlet 611 in the resin bed can be seen alon~ with a further view of the diffuser assembly. Another view showing the diffuser assembly and the resin bed container 525 is shown in FIG. 26.
Referring to FIG. 28, the resin bed assembly 525 can be seen in more detail. Inserted sealingly within the resln bed assembly is a cartridge 613 containing beads ;~
of resin for filtering and deionizing the water. Water flows through the resin bed 613 to the top thereof and -~
then out of an outlet passage 615. This passage extends radially to an axial passage 616 in a base portion 617 of the member 529 which contains the anti-surge valve ;
sealingly inserted therein. Member 529 in turn is -~
. . .~ , attached to part 537 in the manner described above. - ~
'`''":'..' ' '.
The anti-surge valve itself is illustrated in FIG. 29.
It includes a main body member 621. Retained within the body 621 i9 a valve member 623, which i5 biased downwardly by a spring 625. An insert 627 inserted into the open end 629 of the body 621 acts as a stop limiting `~
the axial motion of the valve member 623. Extending axially inwardly from this cover 627 are a plurality of legs 631 on the ends of which is formed an annular valve seat 633. Valve seat 633 mates with a sealing rin~ 635 ~331972 of triangular cross section formed on the valve member 623. The base of valve member 623 in the center of the sealing ring 635 contains a bore 637. The axial inner end of the body 621 contains a bore 639. An O-ring seal 641 is provided between the valve member 623 and the body 621. A further O-ring seal 643 is provided at the axial inner end of the body 621 and, referring to FIG. ;~
21, seals the body to the wall of the chamber 647 formed by the member 529.
:' .,' ~,, ',' 10 When the anti-surge valve of FIG. 29 is inserted into -~
the chamber 647, the bore 639 is aligned with the inlet of opening 551, these two elements being of essentially ;
the same diameter so that there is a smooth flow therebetween to avoid loss of carbonation. The purpose 15 of the anti-surge valve is to prevent surging and ~ ~
spitting when the carbonated water valve (i.e., the ~ -shuttle valve assembly) is first opened. The pressure -within the carbonator is, for example, 50 psi. This pressure is reduced to atmosphere by the time the ;
carbonated water is discharged from the outlet spout.
It i9 the purpose of the spiral expansion chamber to gradually expand the water flow to gradually reduce this ;
pressure so that a gradual reduction takes place without the loss of carbonation. In addition, a smooth flow is assured since sharp edges will break loose the carbo~
dioxide bubbles, as will any turbulence. However, when the shuttle valve assembly is closed, in the absence of " ~ :

.,.~ , ,.,; .,.
. ~

" 1331972 an anti-surge valve, pressure builds up within the expansion chamber. The anti-surge valve prevents excessive pressure build up by closing when the sum of the pressure in the expansion chamber and the pressure of the biasing spring, typically 30 psi, equals the pressure inside the carbonator. In this manner, a reduced pressure, e.g., 20 psi, is maintained in the expansion chamber and surge problems are reduced. Once sufficient pressure builds up in the expansion chamber, 10 that pressure plus the spring pressure pushes the valve ~ ~
member 623 downward such that the ring seal 635 seats ~ -against the valve seal 633, preventing further pressure : . .
build up. Once the shuttle valve assembly is opened, -the pressure within the expansion chamber and hence above valve member 623 reduces allowing the pressure in :::
the carbonator to move valve 623 off its seat and flow begins to occur through outlets 637 and 639. Water then flows through the inlet 551, through the spiral expansion chamber of FIG. 22 to the outlet 541. ; ~;

FIGS. 30-32 illustrate the cover assembly for the carbon dioxide cylinder 17 and its connection to a regulator which also acts as a weighing mechanism. Referring to FIG. 30, over the end of the gas cylinder 17 there is placed first an O-ring seal 701, then a ~ember 703 which has an inner washer-like portion overlying the neck section 704 of cylinder 17, and is held in place by a flange on threaded fitting 705, threaded into the ,~
.
.

`` 1331972 threads 707 within the neck section of the cylinder 17.
The fitting 705 contains a check valve which is operated when an appropriately sized pin is inserted into its opening 709. Member 703 contains a central cylindrical . . : , :: . . -portion 711 with two arms 713 at the ends of which rings 715 are formed as finger grips. As best seen from FIG.
32, on the inside ~f the cylindrical portion 711 are formed two diametrically opposed axially extending slots -719 which lead to horizontal circumferentially extending ;
10 locking slots 720. These are also shown in FIG. 31. A ~-cover 23 is snapped over the member 703 to give the cylinder the finished appearance illustrated in FIG~
The cover is shaped so as to enclose the top of the -cylinder and the member 703 and includes side parts 721 -with openings 723 which align with the openings 715.
These openings permit a finger grip for ease in handling ;~
of the cylinder. The cover 23 contains a tear-away top ~ ~`
portion 725 with a tab 727 provided to tear off the cover to permit ease of access to the fitting 709.

The handles 715 and 721 also act as an alignment means.
As can be seen from FIG. 32, the axial slots 719 are aligned with the handle 721. Thus, when inserting these on a regulator assembly 729 which has a mating fitting 731 with projections 733 thereon, for engaging in the slots 719 and 721, the handles can be used for alignment purposes. The user simply lines up the handles with the pins 733 and then rotates the handles 721 until they are :., .,,, ~,....

in a predetermined position in which the cylinder is locked in place against the fitting 731. The fitting 731 includes a hollow probe which fits into and seals within the opening 709 and opens the valve therein to 5 permit the flow of carbon dioxide through the regulator .- :
and into the rest of the system. However, the probe is much thinner than previously employed to permit manual connection of the cylinder 17 to the fitting 731. ~ .
.,:
The regulator 729 is also shown in ~IG. 33 which is an ~`~
exploded view of the regulator and weighing assembly.
The fitting 731 of the regulator 729 with its pins 733 is visible at the bottom of the Figure. A shaft 735 extends out from both ends of the requlatorO Shaft 735 .~
on the left hand side contains a flat 737. A member 739 ;;
15 to be described in more detail below is placed over this :; ~ :
end of the shaft 735. The whole assembly, generally indicated as 740 is inserted into a hood 741 containing holes 743 on each side thereof for accepting the shaft 735. The shaft 735 on the left hand side is held in 20 place in a cylindrical recess 745 attached to the ;
regul.ator 729 by means of a cotter pin 747. ~hus, after ~;
the ~haft 735 on the right hand side is inserted through its hole 743, the recess 745 is aligned with the hole 743 on the left and the shaft 735 on the left hand side is .inserted and secured in place with cutter pins 747.
Thereafter the member 739 can be placed over the end o~ ~
the shaft 735. The hood 741 has a brim 7~9 containing ;~ ;

..

-34- ~ -thereon indicia 751 and 7S3 along with arrows 755. The ~ ~
- . . ~
indicia indicate to the user the proper alignment for ~-~
the handles 721 in the position where the bottle is --. . .
inserted and the position where it is locked in place.
The hood 741 is held by an assembly 757. This includes ~-a U-shaped bracket 759 having holes 761 in its base for mounting to the machine. Extending through the two legs of this U-shaped bracket 759 is a shaft 763. At each end of the shaft is a spring 765. This is a coil spring containing arms 767 and 769 each of which are bent at ~ -their ends so as to have a portion parallel to the axis of the spring. The arm 767 contains an axially extending portion 771. Portion 771 engages in one of a . ~ .. - ~
plurality of holes 775 in the arm of the bracket 759.
The bracket 759 encloses the rear portion of the hood , :; ,-~
741 with the shat 763 extending through the opening 777. The inwardly extending portion 773 of spring arm 769 engages in holes 779. Thus, hood 741 rotates on shaft 763 and is biased upwardly by spring 765.
~ ~ ,, "
FIGS. 34 and 35 illustrate manner in which the weighing mechanism operates. The previously mentioned member 739 comprises a planar member containing an arcuate slot 781 therein. The slot 781 slidably engages a pin 782 provided on the inside of one of the walls of the cylinder compartment adjacent to the planar member. Its purpose is to maintain the axis of the fitting 731 vertical irrespective of the ~ , -` 1331972 :~

rotation of the hood 741. FIG. 34 shows the hood 741 : . . , : . .-rotated upwardly, corresponding to an empty bottle or no bottle in place. ~IG. 35 illustrates the hood 741 rotated downwardly with a full bottle in place. It will be recognized, that the locus of shaft 735 moving between the positions of FIGS. 34 and 35 will exhibit curved motion and, were it not for the slot 781 and pin 782 and the rigid connection of the member 739 to the shaft 735, which in turn i5 rigidly connected to the regulator 729 and thus to the fitting 731, rotation of the regulator 729 and fitting 731 would take place. It is important that the axis of the fitting 731 be-maintained vertical so that CO2 bottles can be easily removed and inserted. The springs 765, thus, tend to bias the cover 741 upwardly into the position shown in FIG. 34. The weight of a full CO2 cylinder acts against : ,: ....
this biasing action to bring the cover downward to the position shown in FIG. 35. ~ ;

The member 739 performs a second function, the function of an indicator. At the bottom of the member 739 are painted two areas 783 and 785. Area 783 is painted green, for example, and area 785 is painted red. A
viewing window 787 is provided in the drink dispenser housing through which the painted areas 783 and 785 can be observed. With a full bottle, one looks through the viewing window 787 and sees the green area 783. As the bottle begins to empty, the red area 785 begins to ~ . ~

- ' 1331972 appear until, when all red, the bottle is essentially empty. Preferably, the biasing force of the springs 765 is such that they operate only over the last ten percent of carbon dioxide in the bottle. That is to say, only ~ -when the bottle is, for example, 10 percent full will the bottle become light enough so that the spring begins to move the cover 74I upwardly. This gives a better indication at the end of supply than would a linear system which would be difficult to calibrate. The biasing force of the spring 765 may be charged as needed based on the users selection of the various holes 775 in bracket 759.
.
~IGS. 36 and 37a-c illustrate one means of maintaining a tangential relationship between the inside o the glass 15 and the dispensing spout. Such a tangential ` ;
relationship is desirable so that the carbonated water swirls around the glass in such a way as to mix the water and syrup but in such a way as to not lose its carbonation. Without such control, if, for example, the stream of water impinges directly on an opposing wall of the cup, this will cause a breakup of the bubbles of carbon dioxide and a loss of carbon dioxide and the drink will not taste as it should. Thus, there is provided a surface 801 with a compound curve. This is above the drip tray 803 in the area below the dispense head. The glass is lifted up and guided along the ~ -compound curve until it touches the actuator 233 causing ~ `

~:,'..';': .

,' -''" "' `'' ~ ,, ~ 1 33l 9 72 ~,:

-37- :
actuation in the manner described above and a flow of ~-water from the spout 225. As illustrated in FIGS. 37a-c, because of the compound curve, irrespective of the cup size, a flow of water that is more or less 5 tangential to the inside surfaoe of the cup will occur. ;~

:~' ~, ,: ', "
. ::: ~
~ .

, ' `,;

:

Claims

1. A carbonated drink dispenser comprising:
(a) means for dispensing a stream of carbonated water;
(b) means for dispensing a concentrate, said carbonated water and concentrate directed so as to mix in a container;
(c) means operable through contact with said container to cause said means for dispensing carbonated water and means for dispensing a concentrate to dispense; and (d) means for maintaining a position of said container such that said stream of carbonated water enters said container essentially along a wall thereof, whereby loss of carbonation in said carbonated drink will be minimized.

2. In a post mix drink dispenser including a source of concentrate; a concentrate valve; a carbonator tank containing diluent under pressure, a dispensing outlet for dispensing said diluent into a container and a dispensing valve between said dispensing outlet and said carbonator tank, the improvement comprising:
(a) said dispensing valve mounted to the outside of the carbonator tank and having an inlet coupled to a fitting extending through the wall of said tank; and (b) said dispensing valve comprising:
(i) valve body containing therein a bore open on one end and closed at the other, said tank fitting opening into said bore;

(ii) a shuttle supported for movement in said bore, said shuttle having formed therein a passage with an axial outlet and an inlet opening;
(iii) means biasing said shuttle axially outwardly;
(iv) stop means for limiting the axial outward movement of said shuttle, such that by pushing said shuttle inwardly, against said biasing means, said inlet can be coupled with said tank fitting to permit flow through said shuttle and out said outlet.

3. Apparatus according to claim 2, wherein said dispensing spout includes an extension of a cross section corresponding to the cross section of said shuttle and further including means to move said spout into axial contact with said shuttle and into said bore to open said valve.

4. Apparatus according to claim 3, wherein said spout comprises a tubular member of flexible material, having a flange on the end thereof contacting said shuttle and a rigid cradle holding said spout and bending it downwardly for dispensing into a container, said means to move, moving said cradle.

5. Apparatus according to claim 3, wherein said carbonator tank is a removable batch carbonator comprising a tank and a lid and further including a passage through said body and through the wall of said tank for supplying carbon dioxide to said carbonator and a check valve in said passage.

6. Apparatus according to claim 5, wherein said post mix dispenser further includes:
(a) a compartment with walls for said carbonator tank:
(b) a carbon dioxide fitting mounted to a wall of said compartment said carbon dioxide inlet bore aligned with said fitting for sliding engagement therewith;
(c) said dispensing spout extending through a wall of said compartment such that, when said carbonator is slid onto said carbon dioxide fitting, said spout is aligned with said axial bore; and (d) means for locking said carbonator in place with said bore slid onto said fitting.

7. Apparatus according to claim 6, wherein said spout moving means are coupled to open said concentrate valve at the same time as said spout is moved into said axial bore.

8. Apparatus according to claim 7, wherein said concentrate valve is located in a disposable concentrate package and is operable by movement of one package part relative to another and said dispenser includes means for holding said package and said spout moving means are adapted to act to move said parts relative to each other.

9. Apparatus according to claim 8, wherein said movable parts comprise a body of the package and a cap, rotation of said cap opening said concentrate valve and said means to hold include means to hold said body and a disk rotatable therein engaging said cap, said spout moving means acting to rotate said disk.

10. Apparatus according to claim 9, wherein said spout moving means comprise a pneumatic actuator.

11. Apparatus according to claim 10, wherein said pneumatic actuator comprises a cylinder and piston, said piston having a rod extending therefrom and out of said cylinder; and a slide member on the end of said rod, said slide member engaging said cradle and said disk.

12. Apparatus according to claim 11 wherein said slide member contains a pin and said cradle a slot, said pin engaging in said slot whereby upon actuation said pin will first move from one end of said slot to the other, while said disk is rotating before said cradle moves to open said dispensing valve.

13. Apparatus according to claim 11, wherein said actuating means further includes a valve for supplying gas to said cylinder, and an actuator for operating said valve, said actuator disposed with respect to a container into which carbonated water is to be dispensed from said spout, such that movement of said container into a position to receive carbonated water from said spout will move said actuator such as to operate said valve.

14. Apparatus according to claim 11, and further including means for positioning said container such that carbonated water will be dispensed essentially tangentially to the inner surface thereof to reduce loss of carbonation during dispensing.

15. The apparatus according to claim 2 further comprising an O-ring seal disposed between said inlet of said shuttle and said source, wherein said inlet of said shuttle valve is opened at a flat outer surface of said shuttle.