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FIELD OF THE INVENTION
This invention relates to a data logger capable of verifying compliance with the cooling regime recommended by the US Department of Agriculture Food and Safety Inspection Service for cooked meat as approved by the Food and Drugs Administration.
BACKGROUND
Cooked food is required to be cooled within set times to avoid the establishment of organisms at a level above that which could be dangerous for consumption. One version of these levels is set by the US Department of Agriculture and requires:
3-501.14 Cooling
(A) Cooked POTENTIALLY HAZARDOUS FOOD shall be cooled:
(1) Within 2 hours from 60.degree. C. (140.degree. F.) to 21.degree. C. (70.degree. F.); and
(2) Within 6 hours from 60.degree. C. (140.degree. F.) to 5.degree. C. (41.degree. F.) or less, or to 7.degree. C. (45.degree. F.) or less as specified under .paragraph.3-501.16(A)(2)(b).
(B) POTENTIALLY HAZARDOUS FOOD shall be cooled within 4 hours to 5.degree. C. (41.degree. F.) or less, or to 7.degree. C. (45.degree. F.) as specified under .paragraph.3-501.16(A)(2)(b) if prepared from ingredients at ambient temperature, such as reconstituted FOODS and canned tuna.
(C) Except as specified in .paragraph.(D) of this section, a POTENTIALLY HAZARDOUS FOOD received in compliance with LAWS allowing a temperature above 5.degree. C. (41.degree. F.) during shipment from the supplier as specified in .paragraph.3-202.11(B), shall be cooled within 4 hours to 5.degree. C. (41.degree. F.) or less, or 7.degree. C. (45.degree. F.) or less as specified under .paragraph.3-501.16(A)(2)(b).
PRIOR ART
Data loggers exist for a variety of tasks including the recording of the temperature. Application of these to the food industry is shown by:
U.S. Pat. No. 5,939,974 which describes a system for monitoring and controlling food service requirements in a food service establishment. It includes a main computer with appropriate peripherals and an interface unit. The interface unit is connected to the main computer and is also connected to a plurality of monitoring devices, some of which monitor essential food establishment functions, such as temperatures, motion detectors, sanitary areas and the like, while others monitor employee activities. The interface unit is also connected to a plurality of control devices which both monitor and control essential activities, including sanitation, temperature, signals for smoke detection, pH levels, inventory and employee activities. Portable instruments are included with connection capabilities to the interface unit, and employee identification devices are also included.
U.S. Pat. No. 5,437,163 which relates to a method of logging data relative to the operation of a transport refrigeration unit, during each trip of the transport refrigeration unit, with the transport refrigeration unit including control means and non-volatile memory means. The method includes the steps of monitoring a plurality of predetermined variables of the transport refrigeration unit to provide data, and selecting those variables of the plurality of monitored variables whose data is to be logged in the memory means during a trip of the transport refrigeration unit.
Such data loggers do not relate to the specific task of monitoring food cool down time, which has specific requirements to be followed.
OBJECT
It is an object of this invention to provide a data logger which will monitor compliance with a cooling regime as specified, or which will at least provide the public with a useful choice.
STATEMENT OF INVENTION
In one aspect, the invention comprises a data logger, a temperature probe fitted to the data logger and a logging regime which monitors the temperature of the probe environment at intervals which will indicate compliance or non-compliance with a specified cooling regime.
DRAWINGS
FIG. 1 is a perspective view of a data logger in accordance with the invention
FIG. 2 is a flow chart of a logging regime which would indicate compliance with the current US FDA recommendations.
PREFERRED EMBODIMENTS
FIG. 1
Shows a data logger 1 having a display 2, status indicating LEDs 3 and 4, a control switch 5 and a temperature probe 6. The logger has an internal clock and can store date and time information against temperature information from the probe. In use the probe 6 is located in the area of food which has just been cooked and the control switch 5 is operated. The logger initializes and commences displaying the temperature and the current date and time.
The control switch may be a magnetically operated switch so that there are no external switches or control knobs or it may be a press button switch. The logger may not be resettable once started until a full monitoring period has elapsed to avoid inadvertent restarting of a monitored cooling period.
LED 3 indicates that the logger has been initialised and is functioning and LED 4 will show an alarm state if the regime has not been complied with.
FIG. 2
Is a flow chart for the logic embedded in the logger, implementing the requirements below.
It is a requirement that the food being monitored must exceed 60.degree. C. in order for harmful organisms to be destroyed. If the temperature probe does not reach this temperature within one hour of activation the logger will indicate a failure.
Within 6 hours of first indicating a temperature of 60.degree. C. the temperature should have dropped below 40.degree. C., and accordingly the logger holds and displays the temperature at 2 hour intervals until 6 hours has elapsed, at which logging ceases.
The logged temperatures and times may be read out via an output port and permanently recorded.
ADVANTAGES OF THE PREFERRED EMBODIMENT
The logger as described monitors only one location and is capable only of showing compliance with one regime. This means that a user does not have a complex choice of regimes to make, and that the logger cannot accidentally be forced into different modes of operation. This adds to the reliability of the logger when in use since its intended use is in the food industry where it acts as a single use tool.
VARIATIONS
Preferably the internally held regime may be varied by reprogramming the logger.
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