System for improving carbonation in post-mix dispenser carbonators

Information

  • Patent Grant
  • 4745853
  • Patent Number
    4,745,853
  • Date Filed
    Tuesday, June 2, 1987
    37 years ago
  • Date Issued
    Tuesday, May 24, 1988
    36 years ago
Abstract
A system for improving carbonation in post-mix beverage dispenser carbonators, including the method of automatically venting the headspace in a carbonator tank to atmosphere at predetermined times and for a predetermined length of time. This system eliminates most of the air from the headspace and provides a significant improvement in carbonating efficiency, in-line carbonation and in cup carbonation.
Description

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to carbonators used in post-mix beverage dispensers and in particular to a system for improving carbonation efficiency, in-line carbonation and cup carbonation.
2. Background
Standard carbonators used in post-mix beverage dispensers are well-known, and include a carbonation tank for holding a quantity of water with a headspace containing CO.sub.2 gas under pressure (of from about 50-100 psi, for example). When the water level drops below a predetermined lower level, as sensed by level sensors (for example, such as when the dispensing valves to which the carbonator is connected have withdrawn a certain quantity of carbonated water, such as 16 ounces) the water pump is turned on and water is fed into the tank under pressure to bring the water level back up to an upper level and in such a way as to provide contact between the water and the CO.sub.2 to enhance carbonation. The carbonated water is drawn from the tank through a dip tube having an inlet adjacent to the bottom of the tank. The carbonator tank also includes a pressure relief valve, such as a 100-pound valve (psi) or a 120-pound valve.
A completely different type of carbonator is used at bottling plants. Such bottling plant carbonators are much larger and more expensive. Such carbonator systems include means for cooling the water to be carbonated and for providing large surface areas of water. In addition, the water is first fed through a deaerator (to remove air from the water) before the water enters the carbonator.
SUMMARY OF THE INVENTION
A system for improving carbonation in a post-mix beverage dispenser type of carbonator, comprising the steps of automatically venting the headspace in the carbonator tank to atmosphere at predetermined times and for a predetermined length of time to eliminate at least most of the air that has accumulated in the headspace. It has been found that this elimination of air from the headspace results in a significant improvement in carbonation efficiency, in in-line carbonation, and in cup carbonation.
The predetermined times at which the vent is opened are preferably certain times during the day, such as twice a day at 3:00 p.m. and 3:00 a.m. Alternatively, the predetermined times can be every so many cycles (times the pump is turned on), such as once every "x" number of cycles, wherein "x" is chosen from the range of from about 50 to 500. The predetermined length of time that the vent is opened is preferably from one to five seconds, during which time the CO.sub.2 line remains open to the CO.sub.2 source.
It is an object of the present invention to provide a system to improve carbonation in post-mix dispenser carbonators including to improve carbonator efficiency, in-line carbonation and cup carbonation.
It is another object of this invention to improve carbonation in a post-mix beverage dispenser carbonator by automatically venting the headspace in the carbonator tank to atmosphere at predetermined times for a predetermined length of time.





BRIEF DESCRIPTION OF THE DRAWINGS
The present invention will be more fully understood from the detailed description below when read in connection with the accompanying drawings wherein like reference numerals refer to like elements and wherein:
FIG. 1 is a partly diagrammatic, partly schematic view of the automatic carbonator venting system of the present invention;
FIG. 2 is a graph showing percentage of CO.sub.2 in a carbonator tank versus in-line carbonation;
FIG. 3 is a graph showing reduction of CO.sub.2 volumes-in-line versus percentage of air in a carbonator tank; and
FIG. 4 is a graph showing in-line carbonation versus cup carbonation.





DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
With reference now to the drawings, FIG. 1 shows the automatic carbonator venting system 10 of the preferred embodiment of the present invention.
The system 10 includes a carbonator tank 12, a water pump 14 driven by a motor 16 for pumping water under pressure into the tank 12 through a water line 18, a carbonated water outlet line 20 connected to a dip tube 22, a CO.sub.2 inlet line 24 connected to a CO.sub.2 source (not shown), a pressure relief line 28 having a pressure relief valve 30, an automatic vent line 32 connected to said pressure relief line 28, a solenoid operated valve 34 in said line 32, a level sensing means 36 to turn on the motor 16 when the water level drops to the lower level and to turn it off when the level again reaches the upper level, and a timer means 38 for opening the valve 34 at predetermined times and for a predetermined length of time. For example, in a preferred embodiment the valve 34 is opened twice a day at 3:00 p.m. and 3:00 a.m. and for a length of time of from one to five seconds, preferably three seconds.
Alternatively, the timer means 38 can include a cycle counter for counting every time the motor 16 is turned on and for opening the valve 34 every time the motor 16 has been turned on a predetermined number of times. For example, the valve 34 can be opened every "x" number of cycles; "x" is preferably chosen from the range 50 to 500. One preferred embodiment opens the valve 34 every 100 cycles for two to three seconds,
Any standard, well-known pump, motor, valves, level sensing means, and timer (or cycle counter) can be used. A valve is not shown on the soda water line 20; the valve that controls this flow is the beverage dispenser valve assembly (not shown) on a beverage dispenser (not shown). Any known beverage dispenser and valve assembly can be used.
The carbonator tank is filled with water up to a level between an upper and a lower level. The headspace above the water level contains CO.sub.2 gas at a pressure of, for example, 100 psi.
It has been found that, assuming no malfunction of equipment, carbonation values drop as the effective CO.sub.2 pressure decreases due to an influx of air into the carbonator headspace. Incoming water supplies typically carry undissolved air. The carbonator headspace acts as an accumulator for this entrained air. It has further been found that varying amounts of air, up to 30%, have been found in the headspace.
During two months of testing at one city; the level, for three accounts were:
______________________________________ Max. Min. Average______________________________________Account A 22.3% 9.1% 19.2%Account B 28.7% 11.6% 20.2%Account C 29.7% 7.7% 17.0%______________________________________
FIG. 2 shown how the percentage of air relates to the in-line carbonation levels produced by a carbonator. Different carbonators and carbonator systems do not perform identically. In general, the in-line carbonation values of field samples were proportionately lower as the presence of air increased. Less than 17% of the samples, whose carbonators measured 10% or more air, produced carbonation volumes above 4.0.
FIG. 3 shows how much reduction in carbonation values has been measured as the amount of air in the carbonator increases. As shown, a 20-25% level of air may reduce in-line carbonation by 1.0-1.5 volumes.
FIG. 4 shows how this affects cup carbonation. The amount of CO.sub.2 breakout varies with the mechanics/hydraulics of the dispensing system. For a fast-flow valve (3 oz/sec.), a reduction of 1.2 volumes in the in-line carbonation may reduce cup carbonation by 0.5 volumes, i.e., assume 4.5 in-line yields 3.7 in cup, versus 3.3 in-line yields 3.2.
The method of the present invention had the following affect on a carbonator:
Field test data at one account showed:
______________________________________Percent CO.sub.2 Carbonation VolumesBefore Vent After Vent Before Vent After Vent______________________________________78.5 97.6 3.8 5.079.3 94.0 3.6 4.481.6 90.2 3.6 3.978.1 95.4 3.5 4.4______________________________________
Laboratory testing has indicated to what levels a vented carbonator can reduce the amount of air. A vented carbonator can keep the air levels down under 5%, thereby maintaining 95% or higher carbonator efficiencies.
In a preferred embodiment of the present invention, the carbonator tank is vented to atmosphere twice a day, at 3:00 p.m. and 3:00 a.m. In an alternative embodiment, the tank is vented once every 100 cycles, for a time period of from one to five seconds. Alternatively, the number of cycles chosen to perform the venting can be from about 50 to 500.
While the preferred embodiments of this invention have been described above in detail, it is to be understood that variations and modifications can be made therein without departing from the spirit and scope of the present invention. For example, other predetermined times for opening the vent can be used, including once every cycle, for 1-2 seconds, for example. The timer or cycle counter can also be made adjustable so a single piece of equipment can be used for different locations, because the amount of air in the water varies from location to location. Also, the length of time of opening the vent can be made adjustable for the same reason. An alternative embodiment is to include a solenoid controlled valve in the CO.sub.2 supply line to the carbonator tank and to close this valve during venting to save CO.sub.2. In the embodiment in which the tank is vented each cycle, that is, each time the pump is turned on, the rate of gas removal through the vent is preferably controlled by a needle valve or an orifice, to maintain pressure on the carbonator tank. Many carbonators now have electronic level controls, so that it is an easy matter to build logic into the system to provide the automatic periodic venting of the present invention.
Claims
  • 1. Apparatus for improving carbonation in a post-mix beverage; dispenser carbonator comprising:
  • (a) a carbonator tank enclosing a headspace;
  • (b) a pressure relief line from said tank;
  • (c) a pressure relief valve in said pressure relief line;
  • (d) an automatic vent line connected to said pressure relief line upstream of said pressure relief valve;
  • (e) a solenoid-controlled valve in said automatic vent line for venting said headspace to atmosphere; and
  • (f) timer means for opening said solenoid-controlled valve at predetermined times and for a predetermined length of time.
  • 2. The apparatus as recited in claim 1 wherein said timer means includes means for opening said solenoid-controlled valve every "x" number of hours, wherein "x" is between about 3 and 24.
  • 3. The apparatus as recited in claim 1 wherein said timer means includes means for counting the number of carbonator cycles and for opening said solenoid-controlled valve every "x" number of cycles, wherein "x" is between about 50 and 500.
  • 4. The apparatus as recited in claim 1 wherein said timer means includes means for adjusting said both predetermined times and said predetermined length of time.
US Referenced Citations (21)
Number Name Date Kind
2401916 Pietro Dec 1945
3090293 Plock May 1963
3397870 McCann Aug 1966
3552726 Kraft Jan 1971
3572550 Colomina Mar 1971
3599657 Maldava Apr 1969
3617032 Tracy Sep 1968
3637197 Hudson Jan 1968
3752452 Iannelli Jul 1971
3953550 Gilbey Dec 1974
3960164 Kelley May 1974
4222972 Caldwell Jan 1977
4259360 Venetucci Mar 1981
4298551 Adolfsson Nov 1981
4300923 Skoli Nov 1981
4313370 Skoli Feb 1982
4343824 Caldwell Aug 1982
4391762 Child Jan 1982
4395940 Child Aug 1983
4399081 Mabb Aug 1983
4422371 Child Dec 1983