ICY BEVERAGE MACHINE
United States Patent 3726102
To maintain a balanced liquid-gas charge in the cooling chamber of an icy beverage machine, gas is introduced when the pressure in the cooling chamber falls below about 25 psi. Then after about a 3-to-8 second delay, liquid is charged into the cooling chamber until the pressure in the cooling chamber reaches about 30 psi.
US Patent References:
Machine for dispensing semi-frozen drinks and control therefor
Mitchell et al. - October 1968 - 3403524
Liquid carbonator
Bayers, Jr. - July 1950 - 2514463
Machine for dispensing semi-frozen drinks and control therefor
Mitchell et al. - October 1968 - 3403524
Liquid carbonator
Bayers, Jr. - July 1950 - 2514463
Application Number:
05/168632
Publication Date:
04/10/1973
Filing Date:
08/03/1971
View Patent Images:
Export Citation:
Primary Class:
Other Classes:
62/306, 261/DIG.007
International Classes:
A23G9/22; B67D1/08; B67D1/12; F25D31/00; A23G9/04; B67D1/00; F25C7/16
Field of Search:
62/69,70,178,306 261/DIG.7,27,69R,92X,64,18B
Primary Examiner:
Wayner, William E.
Claims:
I claim as my invention
1. In a machine for making icy drinks having
2. The invention as defined in claim 1 with the additional limitation of
3. The invention as defined in claim 1 with the additional limitation of
4. The invention as defined in claim 1 with the additional limitations of
5. In a machine for making icy drinks having
6. The invention as defined in claim 5 wherein said electric control means is
1. In a machine for making icy drinks having
2. The invention as defined in claim 1 with the additional limitation of
3. The invention as defined in claim 1 with the additional limitation of
4. The invention as defined in claim 1 with the additional limitations of
5. In a machine for making icy drinks having
6. The invention as defined in claim 5 wherein said electric control means is
Description:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to beverages and more particularly to a carbonated drink partially frozen.
2. Description of the Prior Art
The KNEDLIK U. S. Pat. No. 3,044,878 shows the basic icy beverage machine. This patent discloses the maintenance of the charge within the cooling chamber by use of an electrical contact probe within the cooling chamber. The patent discloses a source of carbon dioxide gas under pressure at all times being connected to the cooling chamber when the liquid falls below a predetermined level as indicated by the probe within the cooling chamber.
LENTS, U. S. Pat. No. 3,108,449, discloses the means for maintaining the proper temperature within the cooling chamber. The temperature is sensed by the torque necessary to agitate the contents of the chamber. When the torque becomes great, the cooling is reduced. The amount of liquid in the chamber will effect the torque on the agitator. Also, changes in the temperature will produce changes in the pressure.
"Icee Dispenser" Service Manual Parts Catalog as published by John E. Mitchell Company, P.O. Box 1811, 3800 Commerce Street, Dallas, Texas 75226, with the distributor parts prices effective Dec. 1, 1969, (a copy of which is attached to this application), depicts machinery which is currently commercially available upon the market and describes the operating procedures necessary to maintain the balance of liquid and gas in the cooling chamber.
The service manual shows that under present operating procedure when the pressure in the cooling chamber falls below 25 psi, the solenoid valve from the carbon dioxide tank (set at about 35 psi) and the liquid pump are both started. Then when the pressure upon the cooling chamber increases by a 5-pound differential, the liquid pump is stopped and the carbon dioxide solenoid valve cut off.
A study of the operations set out in the service manual, particularly the material on Page 7, "Operation of First Production of Icee Drink," Page 8, "Daily Operation" and "Hints for Better Dispenser Operation," and on Page 16, "Trouble Shooting," indicates that much manual operation is essential on the present machines to keep the proper liquid-gas balance within the cooling chamber. If the liquid level is too much or too little, the temperature will be wrong. Furthermore, if there is an insufficient carbon dioxide cap (which is to say there is too much liquid) the product is not of the proper fluffy consistency. If there is too much gas within the chamber, the gas blows out of the dispensing faucet and tends to blow the beverage in a cup out of the cup, which is extremely undesirable. Furthermore, periodically the liquid within the chamber tends to form ice crystals therein, which is undesirable, and it is necessary to go through a defrosting operation. At the time of defrosting, techniques must be observed to get the proper liquid-gas balance.
SUMMARY OF THE INVENTION
1. New and Different Function
I have found that more consistent, desirable results may be obtained with less skillful operators if the gas is first introduced at a low pressure and thereafter the liquid is charged into the cooling chamber.
This is particularly important because the operators of icy beverage machines are traditionally extremely low-skilled and, also, that traditionally there is a very high turnover in their employment. Even if they were adapted to a full understanding of the expansion freezing upon which these machines operate as described in the KNEDLIK patent above, they do not have time to become fully trained.
One of the outstanding advantages of my invention is that if a proper balance between liquid and gas in the cooling chamber can be maintained, the defrosting procedures can be greatly simplified. I.e., if all that occurred during defrosting was the heating of the product to cause any ice crystals therein to melt and the rechilling of it, the defrosting cycle would be greatly simplified. If the defrosting cycle were simplified, it would be possible to defrost the machine mechanically on an automatic cycle. However, it will be noted as described in the present art and specifically referring to the manual, the present procedures for defrosting include re-establishng proper balance between liquid and gas within the cooling chamber. Therefore, one of the advantages of this invention in maintenance of the proper balance in the cooling chamber is the simplification of the defrost cycle so the defrosting can be done automatically and therefore, can be done periodically in the proper manner.
2. Objects of the Invention
An object of this invention is to produce an improved icy beverage.
Another object is to improve the charging of the cooling chamber of an icy beverage machine.
A further object is to simplify the operation of an icy beverage machine so the defrosting may be cycled automatically rather than manually.
Still further objects are to achieve the above with a device that is sturdy, compact, durable, light-weight, simple, safe, efficient, versatile, and reliable, yet inexpensive and easy to manufacture, install, operate, and maintain.
Other objects are to achieve the above with a method that is versatile, rapid, efficient, and inexpensive, and does not require skilled people to install, adjust, operate, and maintain.
The specific nature of the invention, as well as other objects, uses, and advantages thereof, will clearly appear from the following description and from the accompanying drawing, the different views of which are not necessarily to the same scale.
BRIEF DESCRIPTION OF THE DRAWING
The drawing is a schematical representation of an icy macine with my invention incorporated therein.
DESCRIPTION OF THE PREFERRED EMBODIMENT
As may be seen in the drawing, the icy machine includes coolng chamber 10 which is refrigerated by coils 12 which are connected to refrigeration mechanism 14. Product 24 is drawn from the cooling chmber 10 by faucet 16. The product in the cooling chamber 10 is agitated by agitator 18 which is driven through torque coupling 20. The refrigeration mechanism 14 is controlled by micro switch 22 so that as the product 24 within the cooling chamber 10 becomes cold, the torque to the agitator 18 increases. This actuates the micro switch 22, thus cutting off the refrigeraton mechanism 14. Water from water source 26 and flavored, sweetened syrup from syrup source 28 are pumped by mixing pump 30 through pipe 32 into the cooling chamber 10. Check valves 34 prevent the back-flow of any of the liquid material in the opposite direction of its normal flow. Carbon dioxide gas from source 36 is regulated to desired pressure by constant pressure regulator valve 38 and admitted through solenoid valve 40 into the pipe 32 and into the cooling chamber 10. Check valve 42 prevents back-flow of the gas. Pump motor 44 connected to pump 30 and solenoid coil 46 connected to solenoid valve 40 are controleld by pressure switch 48 which is sensitive to pressure within the pipe 32 immediately before its admission into the cooling chamber 10.
The mechanism which has been described to this point is well known and commercially available on the market. I have improved the operation by installing time-delay switch 50 to the pump motor 44. I have had good success using thermal time-delay switches such as are commercially available on the market for flashing outdoor electric display signs. These commercial units have heater unit 52. The switch 50 is open for 3 to 5 seconds until the heater 52 becomes hot enough to cause the switch 50 to close. Then, the switch 50 remains closed as long as the circuits are energized. Therefore, with my invention, the pressure switch 48 can be set to actute at 25 psi and to deactivate on a 5-pound differential, i.e., 30 psi. As soon as the pressure switch 48 actuates, the solenoid valve 40 is opened letting the carbon dioxide gas, which is regulated to about 32 psi by pressure regulator valve 38, enter the copling chamber 10. Thereafter, in about three to 8 seconds, the motor 44 starts pumping liquid into the cooling chamber 10 until the pressure is increased to 30 psi, at which time the pressure switch simultaneously closes the solenoid valve 40 and, also, stops the pump motor 44.
As the unit is operated and if the pressure switch 48 is frequently activated because of heavy use of the equipment, the delay switch 50 and the heater 52 will tend to become warm and have less and less delay. However, I have not found this to be disadvantageous because when the equipment is in heavy use, it has been my observation that the cooling chamber 10 needs to be charged with additional liquid in an operational situation such as that. In light use (when the product is being drawn from the cooling chamber 10 at long intervals of time) the pressure switch 48 is not actuated for long periods of time which permits the delay switch 50 to cool off between its use.
My invention maintains the proper gas-liquid balance in the coolng chamber 10 and therefore, it is possible to defrost the cooling chamber by automatic clock controls. These automatic clock controlls have not been shown because they are well within the skill of ordinary mechanics who are familiar with this type of equipment. It is not necessary in defrosting to make any changes in the liquid supply or the gas supply to the cooling chamber.
Maintenance of the proper pressure has may advantages. Under present conditions, the pressure in the coolng chamber 10 sometimes gets exceedingly high during defrost periods. This is a result of basic unbalance before defrosting as well as the fact that sometimes defrosting being manual by unskilled persons, proceeds for a long period of time. However, with my invention, the pressure is maintained in the proper range; therefore, the defrost pressure is not so high. Also, by making it possible to have automatic defrostng, this prevents overheating. One disadvantage of high pressure is that it causes deterioration of the seals around the cooling chamber, particularly around the agitator shaft, and causes strain on valves. Sometimes the imbalance between the proportion of gas supply and liquid supply becomes such and the temperaure on defrosting is such that the intergrity of the cooling chamber 10 itself is threatened.
The embodiment shown and described above is only exemplary. I do not claim to have invented all the parts, elements or steps described. Various modifications can be made in the construction, material, arrangement, and operation, and still be within the scope of my invention. The limits of the invention and the bounds of the patent protection are measured by and defined in the following claims. The restrictive descripton and drawing of the specific example above do not point out what an infringement of this patent would be, but are to enble the reader to make and use the ivention.
1. Field of the Invention
This invention relates to beverages and more particularly to a carbonated drink partially frozen.
2. Description of the Prior Art
The KNEDLIK U. S. Pat. No. 3,044,878 shows the basic icy beverage machine. This patent discloses the maintenance of the charge within the cooling chamber by use of an electrical contact probe within the cooling chamber. The patent discloses a source of carbon dioxide gas under pressure at all times being connected to the cooling chamber when the liquid falls below a predetermined level as indicated by the probe within the cooling chamber.
LENTS, U. S. Pat. No. 3,108,449, discloses the means for maintaining the proper temperature within the cooling chamber. The temperature is sensed by the torque necessary to agitate the contents of the chamber. When the torque becomes great, the cooling is reduced. The amount of liquid in the chamber will effect the torque on the agitator. Also, changes in the temperature will produce changes in the pressure.
"Icee Dispenser" Service Manual Parts Catalog as published by John E. Mitchell Company, P.O. Box 1811, 3800 Commerce Street, Dallas, Texas 75226, with the distributor parts prices effective Dec. 1, 1969, (a copy of which is attached to this application), depicts machinery which is currently commercially available upon the market and describes the operating procedures necessary to maintain the balance of liquid and gas in the cooling chamber.
The service manual shows that under present operating procedure when the pressure in the cooling chamber falls below 25 psi, the solenoid valve from the carbon dioxide tank (set at about 35 psi) and the liquid pump are both started. Then when the pressure upon the cooling chamber increases by a 5-pound differential, the liquid pump is stopped and the carbon dioxide solenoid valve cut off.
A study of the operations set out in the service manual, particularly the material on Page 7, "Operation of First Production of Icee Drink," Page 8, "Daily Operation" and "Hints for Better Dispenser Operation," and on Page 16, "Trouble Shooting," indicates that much manual operation is essential on the present machines to keep the proper liquid-gas balance within the cooling chamber. If the liquid level is too much or too little, the temperature will be wrong. Furthermore, if there is an insufficient carbon dioxide cap (which is to say there is too much liquid) the product is not of the proper fluffy consistency. If there is too much gas within the chamber, the gas blows out of the dispensing faucet and tends to blow the beverage in a cup out of the cup, which is extremely undesirable. Furthermore, periodically the liquid within the chamber tends to form ice crystals therein, which is undesirable, and it is necessary to go through a defrosting operation. At the time of defrosting, techniques must be observed to get the proper liquid-gas balance.
SUMMARY OF THE INVENTION
1. New and Different Function
I have found that more consistent, desirable results may be obtained with less skillful operators if the gas is first introduced at a low pressure and thereafter the liquid is charged into the cooling chamber.
This is particularly important because the operators of icy beverage machines are traditionally extremely low-skilled and, also, that traditionally there is a very high turnover in their employment. Even if they were adapted to a full understanding of the expansion freezing upon which these machines operate as described in the KNEDLIK patent above, they do not have time to become fully trained.
One of the outstanding advantages of my invention is that if a proper balance between liquid and gas in the cooling chamber can be maintained, the defrosting procedures can be greatly simplified. I.e., if all that occurred during defrosting was the heating of the product to cause any ice crystals therein to melt and the rechilling of it, the defrosting cycle would be greatly simplified. If the defrosting cycle were simplified, it would be possible to defrost the machine mechanically on an automatic cycle. However, it will be noted as described in the present art and specifically referring to the manual, the present procedures for defrosting include re-establishng proper balance between liquid and gas within the cooling chamber. Therefore, one of the advantages of this invention in maintenance of the proper balance in the cooling chamber is the simplification of the defrost cycle so the defrosting can be done automatically and therefore, can be done periodically in the proper manner.
2. Objects of the Invention
An object of this invention is to produce an improved icy beverage.
Another object is to improve the charging of the cooling chamber of an icy beverage machine.
A further object is to simplify the operation of an icy beverage machine so the defrosting may be cycled automatically rather than manually.
Still further objects are to achieve the above with a device that is sturdy, compact, durable, light-weight, simple, safe, efficient, versatile, and reliable, yet inexpensive and easy to manufacture, install, operate, and maintain.
Other objects are to achieve the above with a method that is versatile, rapid, efficient, and inexpensive, and does not require skilled people to install, adjust, operate, and maintain.
The specific nature of the invention, as well as other objects, uses, and advantages thereof, will clearly appear from the following description and from the accompanying drawing, the different views of which are not necessarily to the same scale.
BRIEF DESCRIPTION OF THE DRAWING
The drawing is a schematical representation of an icy macine with my invention incorporated therein.
DESCRIPTION OF THE PREFERRED EMBODIMENT
As may be seen in the drawing, the icy machine includes coolng chamber 10 which is refrigerated by coils 12 which are connected to refrigeration mechanism 14. Product 24 is drawn from the cooling chmber 10 by faucet 16. The product in the cooling chamber 10 is agitated by agitator 18 which is driven through torque coupling 20. The refrigeration mechanism 14 is controlled by micro switch 22 so that as the product 24 within the cooling chamber 10 becomes cold, the torque to the agitator 18 increases. This actuates the micro switch 22, thus cutting off the refrigeraton mechanism 14. Water from water source 26 and flavored, sweetened syrup from syrup source 28 are pumped by mixing pump 30 through pipe 32 into the cooling chamber 10. Check valves 34 prevent the back-flow of any of the liquid material in the opposite direction of its normal flow. Carbon dioxide gas from source 36 is regulated to desired pressure by constant pressure regulator valve 38 and admitted through solenoid valve 40 into the pipe 32 and into the cooling chamber 10. Check valve 42 prevents back-flow of the gas. Pump motor 44 connected to pump 30 and solenoid coil 46 connected to solenoid valve 40 are controleld by pressure switch 48 which is sensitive to pressure within the pipe 32 immediately before its admission into the cooling chamber 10.
The mechanism which has been described to this point is well known and commercially available on the market. I have improved the operation by installing time-delay switch 50 to the pump motor 44. I have had good success using thermal time-delay switches such as are commercially available on the market for flashing outdoor electric display signs. These commercial units have heater unit 52. The switch 50 is open for 3 to 5 seconds until the heater 52 becomes hot enough to cause the switch 50 to close. Then, the switch 50 remains closed as long as the circuits are energized. Therefore, with my invention, the pressure switch 48 can be set to actute at 25 psi and to deactivate on a 5-pound differential, i.e., 30 psi. As soon as the pressure switch 48 actuates, the solenoid valve 40 is opened letting the carbon dioxide gas, which is regulated to about 32 psi by pressure regulator valve 38, enter the copling chamber 10. Thereafter, in about three to 8 seconds, the motor 44 starts pumping liquid into the cooling chamber 10 until the pressure is increased to 30 psi, at which time the pressure switch simultaneously closes the solenoid valve 40 and, also, stops the pump motor 44.
As the unit is operated and if the pressure switch 48 is frequently activated because of heavy use of the equipment, the delay switch 50 and the heater 52 will tend to become warm and have less and less delay. However, I have not found this to be disadvantageous because when the equipment is in heavy use, it has been my observation that the cooling chamber 10 needs to be charged with additional liquid in an operational situation such as that. In light use (when the product is being drawn from the cooling chamber 10 at long intervals of time) the pressure switch 48 is not actuated for long periods of time which permits the delay switch 50 to cool off between its use.
My invention maintains the proper gas-liquid balance in the coolng chamber 10 and therefore, it is possible to defrost the cooling chamber by automatic clock controls. These automatic clock controlls have not been shown because they are well within the skill of ordinary mechanics who are familiar with this type of equipment. It is not necessary in defrosting to make any changes in the liquid supply or the gas supply to the cooling chamber.
Maintenance of the proper pressure has may advantages. Under present conditions, the pressure in the coolng chamber 10 sometimes gets exceedingly high during defrost periods. This is a result of basic unbalance before defrosting as well as the fact that sometimes defrosting being manual by unskilled persons, proceeds for a long period of time. However, with my invention, the pressure is maintained in the proper range; therefore, the defrost pressure is not so high. Also, by making it possible to have automatic defrostng, this prevents overheating. One disadvantage of high pressure is that it causes deterioration of the seals around the cooling chamber, particularly around the agitator shaft, and causes strain on valves. Sometimes the imbalance between the proportion of gas supply and liquid supply becomes such and the temperaure on defrosting is such that the intergrity of the cooling chamber 10 itself is threatened.
The embodiment shown and described above is only exemplary. I do not claim to have invented all the parts, elements or steps described. Various modifications can be made in the construction, material, arrangement, and operation, and still be within the scope of my invention. The limits of the invention and the bounds of the patent protection are measured by and defined in the following claims. The restrictive descripton and drawing of the specific example above do not point out what an infringement of this patent would be, but are to enble the reader to make and use the ivention.