|Publication number||US3312083 A|
|Publication date||Apr 4, 1967|
|Filing date||Aug 25, 1964|
|Priority date||Aug 25, 1964|
|Publication number||US 3312083 A, US 3312083A, US-A-3312083, US3312083 A, US3312083A|
|Inventors||Scoggins Cecil W, Todd Donald L|
|Original Assignee||Scoggins Cecil W, Todd Donald L|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (8), Referenced by (22), Classifications (14)|
|External Links: USPTO, USPTO Assignment, Espacenet|
April 4, 1967 c. w. SCOGGINS ETAL 3,312,083
PORTABLE HOME SODA FOUNTAIN Filed Aug. 25, 1964 5 Sheets-Sheet, 1
DV V VOV V V V VOVOX VOV V g gog g w 9? Xbgo D00 0 Cecil M. Scoygins Donald L. Todd INVENTORS United States Fatent Ofifice 3,33l2fld3 Patented Apr. 4, 1957 The present invention generally relates to a soda fountain construction and more particularly to a portable self-contained soda fountain especially adapted for use in the home or the like and includes means for dispensing various liquid flavoring materials together with means for dispensing carbonated water which is refrigerated so that such carbonated water will be cold for mixing with the flavor material which is also dispensed from the soda fountain.
Another object of the present invention is to provide a portable home soda fountain having a novel refrigeration assembly associated with a carbonated water tank together with a novel association of a carbon dioxide pressure tank with a water tank so that the carbon dioxide will be intimately commingled with the water for discharge thereof from a carbonated water faucet.
Another object of the present invention is to provide a portable home soda fountain which is constructed in such a manner that a supply of the various flavoring materials may be readily replenished and the supply of water also readily replenished.
Yet another feature of the present invention is to provide a soda fountain which is simple in construction, easy to use, effective for retaining the carbonated water cold and relatively inexpensive to maintain.
These together with other objects and advantages which will become subsequently apparent reside in the details of construction and operation as more fully hereinafter described and claimed, reference being had to the accompanying drawings forming a part hereof, wherein like numerals refer to like parts throughout, and in which:
FIGURE 1 is a perspective view of the portable home soda fountain of the present invention;
FIGURE 2 is a vertical sectional view taken substantially upon a plane passing along the section line 22 of FIGURE 1 illustrating the interior structural details of the present invention;
FIGURE 3 is a longitudinal, plan sectional view taken substantially upon a plane passing along section line 3--3 of FIGURE 2 illustrating further structural details of the invention;
FIG. 4 is a plan view of the device with the cover removed therefrom;
FIGURE 5 is a transverse, sectional view taken substantially upon a plane passing along section line 5-5 of FIGURE 1 illustrating further structural details of the invention;
FIGURE 6 is a detail sectional view taken substantially upon a plane passing along section line 6-6 of FIGURE 3, on an enlarged scale, illustrating the structure of the inlet orifice for carbon dioxide;
FIGURE 7 is a detail sectional view taken substantially upon a plane passing along section line 77 of FIGURE 1 illustrating the details of construction of one of the control devices for the flavoring material;
FIGURE 8 is a detail sectional View taken substantially upon a plane passing along section line 88 of FIGURE 7 illustrating further structural details of the control mechanism; and
FIGURE 9 is a schematic view of the refrigeration system illustrating the association of the refrigerating coil with the carbonated water tank.
Referring now specifically to the drawings, the numeral 10 generally designates the portable home soda fountain which includes a hollow cabinet structure 12 having a removable closure lid or cap 14 which conceals certain of the com p-onents of the soda fountain.
The cabinet or housing 12 includes a bottom wall 16, an upstanding front wall 18, an upstanding rear wall 19 and upstanding end walls 20 and 22. The bottom 16 has a downwardly depending skirt 24 which partially conceals supporting feet 26 which may have a resilient component 28 attached thereto for engaging a supporting surface. The back panel 19 extends downwardly alongside the flange or skirt 2d and also has an upper end portion which extends upwardly beyond the top edge of the front wall 18 as illustrated in FIGURE 5. As illustrated in FIG- URE 2 the end walls 20 and 22 have inturned top and bottom flanges 30 in which the bottom flanges are secured to the bottom wall 16 by any suitable means such as welding, soldering or the like. Attached to the upper inturned flanges 30 on the end walls 24) and 22 is a top plate or cover 32 secured thereto by suitable fasteners 34.
The cover 14 includes a top panel 36, depending end panels 38 and a depending and inwardly inclined front panel 4-0 which has the lower edge therefore terminating in spaced relation to the front wall 18. The back edge of the top panel 36 rests on the upper edge of the rear wall 19 and angled clips 4-2 secured thereto. r
Extending laterially outwardly from the bottom edge of the front panel 18 is a trough member 4-4 having an upturned outer edge 46 receiving a screen or reticulated member 48 therein so that any drippage or spillage will be received. The ends of the trough 44% are closed by end pieces 5i having an inclined upper edge and the front panel in is secured to flanges 31 on the forward edges of the and plates 20 and 22 by fasteners 52 and the rear wall 19 is secur'ed to similar flanges 31 by fasteners 54. The rear wall 19 is provided with a screened or reticulated grill 5'5 therein and the end wall 22 is provided with a similar screen or grill 58 of reticulated material to enable air circulation over a condenser 64} of a refrigeration system which is conventional in construction and may be of the finned coil type. A fan 62 is disposed behind the condenser 66 and the fan 62 is driven by a fan motor 64 supported by a suitable bracket es. Inwardly of the fan motor 64,, there is provided a compressor motor unit 68 of conventional construction and which may be hermetically sealed and mounted on a suitable supporting plate "iii with any suitable vibration absorbing means associated therewith. The compressor motor unit has a suction line 72 returning from an evaporator coil 74- and a hot gas discharge line 76 extending to the condenser 60. The condensor 60 discharges the refrigerant through a strainer 73 and a capillary tube 86 which forms an expansion device or flow restrictor to enable the liquid refrigerant to expand into the evaporator coil 7'4. The components of the refrigeration system are conventional except the particular configuration of the evaporator coil 74. Further, a heat sensitive bulb 82 is provided for controlling operation of the compressor in a conventional manner with there being a thermostat 84 for enabling the evaporator coil to cool a carbonated Water tank 86 to a desired lowered temperature.
As illustrated in FIGURES 2 and 5, the evaporator coil '74 encircles the water tank 86 over a substantial portion of the cylindrical peripheral wall thereof. The heat sensing bulb 82 is received within an inclined tube 88 inserted into the bottom portion of the tank 36 as illustrated in FIGURES. The entire tank 86 is enclosed with insulation material 90 which may be in the form of expanded plastic which not only insulates the tank and the water 92 therein but also supports the tank and evaporator coil 74 within the housing.
The upper end of the tank 86 is provided with a cylindrical pipe 94 rigidly afixed thereto which extends up wardly through the insulation material 913 and also through the top plate 32 with the pipe 94 being relatively large and provided with a screw-threaded cap as sealed to the upper end thereof by a sealing gasket 93 so that water 92 may be poured into the tank 86 through the pipe 94 by merely removing the cover 14 and then removing the cap as so that water may be introduced into the tank 86 by any suitable means such as pouring from a container or using a filling hose or the like.
Disposed freely on top of the board or plate 32 adjacent the rear Wall 19 is a cylinder of compressed carbon dioxide 1% having a regulating valve 162 communicated therewith and also a pressure indicating gauge 1114 to indicate the outlet pressure. The regulating valve 1112 is supported on a manual valve 106 and provided with a hand control knob 1111 for opening and closing the valve The cylinder 1%, valve 104; and pressure regulator 1112 lie freely in place and can be moved or lifted up for disconnection of regulator 102 from cylinder valve 1%. The regulating valve 102 has a tube 112 communicated therewith extending to an adapter or fitting 114i extending downwardly through the plate 32 by virture of an enlongated tube 116 which extends down to and is disposed adjacent the bottom of the tank 85. The tube 116 is provided with a screw-threaded cap 11? disposed on the lower end thereof with the cap having an orifice 12f) therein to enable discharge of carbon dioxide gas into the tank 86 near the bottom thereof so that it will be intimately commingled and mixed with the water 92 within the tank 36 so that such water will be carbonated.
Also extending through the top plate 32 and into the tank 556 is a tube 122 having a popoff valve fitting 124 on the upper end thereof which is set at a pressure well below the rupturing pressure of the tank 86 thus assuring that any excess pressure built up in the tank 36 will be discharged.
Also extending down through the top plate 32 is a carbonated water outlet tube 126 terminating adjacent to but spaced above the bottom of the tank 86 and provided with a fitting 128 on the upper end thereof connected with a tube 131) that extends to and is connected to an outlet faucet 132. having a valve control handle 134 associated therewith with the faucet 132 being orientated above the trough 44 as illustrated in FIGURE 1.
Mounted between the upper end of the front panel 18 and front skirt member 135 is a plurality of inverted containers 138 of various flavoring materials. Each of the containers 138 has a discharge tube 146 of flexible material such as plastic or the like and the discharge tube 144" extends down through pairs of brackets 142 which are spaced from each other and the tube 140 extends through a tube pinching valve or assembly 144. Also, the front panel 40 of the cover is provided with transparent inserts 146 with indicia revealed therethrough indicating the particular flavoring controlled by the pinch valves 144.
FIGURE 7 illustrates the details of the pinch valves which includes an abutment 148 having a transverse beveled edge d engaging the side of the tube 141] adjacent the skirt 136. The abutment 148 is held stationary by the provision of a retainer 152 having screw-threaded stud means 154 extending through the skirt 136 thus anchoring the abutment 148 in place. Slidable on the retainer 152 is a sleeve 156 having a spring 158 received therein with one end of the spring 58 engaging a cap 161) fixed to the sleeve 156 and the other end engaging the outer end of the retainer 152.
The sleeve 156 includes a pair of diametrically opposed axial extensions 162 which extend through slots 164 in the skirt 136 to prevent rotation of the knob 161) and also to prevent rotation of the pinch plate 166 which is provided as a connector between a pair of arms 16% connected with the axial extensions 162. As illustrated in FIGURE 7, the transverse plate 166 is provided with :a transverse beveled edge 17th in alignment with the beveled edge 1511 so that the spring 158 will bias the plate 156 toward the abutment 143 for pinching the tube at 172 thus closing the tube and maintaining the tube closed until the plunger or abutment is pushed inwardly.
The ope-ration of the refrigerant system is conventional in that the motor compressor unit 68 receives expanded gaseous refrigerant from the evaporator coil 74 through the suction line 72. The hot gas refrigerant is then discharged to the condenser as from the motor compressor through the hot gaseous discharge line 76. Air is drawn in through the screen or grill 5% by the axial flow fan 62 that is driven by the motor 64. Air is then discharged through the grill 5:? and the condensed refrigerant passes through strainer 78 and, if desired, a receiver may be provided and then through the restriction device in the form of the capillary tube 81 for maintaining the necessary flow restriction so that the condensed liquid refrigerant may expand into the evaporator coil 74 which due to its to its contact with and in heat exchange relation with the tank 86 will maintain the water in the tank 86 at a predetermined temperature as controlled by the heat bulb which is inserted into the bottom of the tank 36 and which controls operation of the refrigerant system by virtue of its being operatively associated with a temperature control switch 8d that controls electrical input from the male plug to the compressor motor unit and fan motor thus operating the refrigerant system when the temperature of the water in the tank reaches a predetermined maximum and cutting the refrigerant system off when the temperature of the water in the tank 86 has been lowered to a preset lower temperature with the control switch 84 having an adjustment arrangement or themnostat for controlling operation of the refrigerant system.
Operation of the dispensing mechanisms for the various liquid fiavorings or syrups will be clearly understood from a perusal of FIGURE 7. The association of the carbon dioxide cylinder 1%? with the inlet orifice 126 is also obvious as is the pressure control and reducing valve 102 which will only discharge carbon dioxide into the tank as the pressure therein is reduced to a point below the discharge pressure setting of the pressure regulating valve 102 with the faucet 134 being employed to discharge carbonated water into the drinks.
The water supply in the tank may be replenished by removing the cap 96 in an obvious manner after the cover for the entire device has been removed. With this construction the fountain is portable and may be installed at any place having a sufiicient supporting area and an electrical outlet such as a conventional female plug found in most homes.
The foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly all suitable modifications and equivalents may be resorted to, falling within the scope of the invention as claimed.
What is claimed as new is as follows:
1. A portable home soda fountain comprising a cabinet, a closed water tank in said cabinet capable of withstanding pressure, a cooling coil disposed exteriorly against the tank in heat exchange relation thereto, a refrigeration system disposed within said cabinet and operatively associated with the cooling coil for cooling the cooling coil thereby cooling the water tank and water therein, a faucet communicated with the water tank, and pressure means communicated with the water tank for pressurizing the water therein for discharging water when the faucet is opened, said pressure means having a discharge orifice disposed interiorly of the tank and adjacent the bottom thereof whereby the pressurizing medium will be discharged at the bottom of the supply of water in the tank, said pressure source including a cylinder of compressed carbon dioxide, a regulating valve regulating the pressure of carbon dioxide admitted into the bottom of said tank whereby the carbon dioxide Will pressurize the Water and mix with the Water so that carbonated Water may be discharged from the tank, said tank having a carbonated water outlet tube connected With the faucet and extending into the top of the tank and terminating adjacent the bottom thereof for assuring discharge of carbonated water substantially throughout the vertical height of the tank, heat sensitive means disposed in said tank, and means operated by the heat sensitive means for controlling operation of the refrigeration system, said pressure source including a discharge nozzle of reduced diameter at the inlet end thereof for increasing the velocity of the carbon dioxide as it is discharged into the water adjacent the bottom thereof, said cabinet including insulating material completely surrounding and encompassing said tank except for access means for the Water outlet, heat sensitive means and carbon dioxide inlet, said tank having a large filler pipe associated therewith for enabling the tank to be refilled, a closure plug for said pipe thus enabling the Water supply in the tank to be replenished, said cabinet including a trough underlying the carbonated water faucet, a removable lid overlying said cabinet and concealing the carbon dioxide cylinder, the closure plug for the pipe and the fittings for inlet and outlet in relation to the tank, said tank including a pressure release valve to enable excess pressure to be discharged, a plurality of flavoring syrup container members mounted on said cabinet, each said container including a valved discharge for selectively dispensing each of said flavor syrups.
2. The structure defined in claim 1 wherein the valved discharge for each flavoring syrup container includes a flexible discharge hose, and spring-biased means pinching the discharge hose on opposite sides thereof for closing said hose, said spring-biased means including a manual operating handle for releasing the pressure exerted on the hose for opening the hose and discharging flavoring syrup therefrom.
References Cited by the Examiner UNITED STATES PATENTS 1,278,219 9/1918 Richardson et all 62-399 X 1,332,945 3/ 1920 Holderle et a] 62-399 1,490,727 4/1924 Billows 62-390 X 1,859,566 5/1932 Konikow 62-399 X 2,182,032 12/1939 Muller 62-390 2,673,005 3/1954 Brown 62-390 X 2,956,418 10/1960 McCann 62-390 X 3,195,779 7/1965 Nicko 62-390 X LLOYD L. KING, Primary Examiner.
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|U.S. Classification||62/390, 62/399, 62/389, 62/395|
|International Classification||B67D1/08, B67D1/00, F25D31/00, F25D11/00|
|Cooperative Classification||B67D1/0857, F25D31/002, F25D11/00|
|European Classification||F25D31/00C, B67D1/08D, F25D11/00|