Claims
- 1. A sausage encasing machine including a frame, a meat emulsion pump, an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a twisting assembly adapted to receive and rotate a casing on the tube when the tube is moved into operative engagement therewith, a casing linking assembly on the frame downstream of the twister assembly to link the casing filled with meat emulsion; and power means on the frame for operating the pump, the twisting assembly, and the linker assembly, the invention comprising,
a computer on the frame, a casing diameter sensor located on the frame located downstream of an exit end of the tube to sense the diameter of the casing downstream of the exit end of the tube, the sensor being operatively connected to the computer to transmit data to the computer as to the casing being sensed, the computer being programmed to predetermined diameter parameters for a range of acceptable casing diameters, said computer being programmed to signal the power means to cease operation whenever the computer detects that the sensed casing diameter is beyond the predetermined diameter parameters.
- 2. The machine of claim 1 wherein the sensor scans for a predetermined time a length of the casing to gather a plurality of diameter data of the casing as the casing moves downstream from the exit end of the tube, means for determining the average diameter of the tube sensed during the predetermined time, whereupon the average diameter is used by the computer for comparison with the predetermined diameter parameters.
- 3. The machine of claim 1 wherein the sensor is located over the linking assembly.
- 4. The machine of claim 1 wherein the sensor is an ultrasound proximity sensor.
- 5. The machine of claim 1 wherein the sensor is an optical signal proximity sensor.
- 6. The machine of claim 1 wherein the sensor is an mechanical-electrical proximity sensor.
- 7. A method of controlling a sausage encasing machine including a frame, a meat emulsion pump, and an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a twisting assembly adapted to receive and rotate a casing on the tube when the tube is moved into operative engagement therewith, a casing linking assembly on the frame downstream of the twister assembly to link the casing filled with meat emulsion, and power means on the frame for operating the pump, the twisting assembly and the linking assembly, the invention comprising,
placing an elongated hollow sausage casing on the tube so that meat emulsion exiting the tube will fill the casing, providing operational power to the pump, the twisting assembly, and the linking assembly, extending the tube through the linking assembly so that an exit end thereof terminates adjacent the linking assembly, sensing the outer diameter of the casing downstream from the exit end of the tube, comparing the sensed diameter of the casing with predetermined diameter parameters for a range of acceptable casing diameters, transferring the data from the sensor as to the measured diameter of the casing to a computer, causing the computer to stop the operation of the machine if the measured diameter is outside the predetermined diameter parameters.
- 8. A method of claim 7 wherein the sensor is permitted to scan for a predetermined time a length of the casing to gather a plurality of diameter data of the casing as the casing moves downstream from the exit end of the tube, averaging the diameter of the tube scanned during the predetermined time,
and using the average diameter for comparison with the predetermined diameter parameters.
- 9. The method of claim 8 wherein the sensor scans the casing as the casing moves through the linking assembly.
- 10. The method of claim 8 wherein the sensor is an ultrasound proximity sensor.
- 11. The method of claim 8 wherein the sensor is an optical sensor.
- 12. The method of claim 8 wherein the sensor is a mechanical electrical sensor.
- 13. A sausage encasing machine including a frame, a meat emulsion pump, an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a casing linking assembly on the frame downstream to link the casing filled with meat emulsion, and power means on the frame for operating the pump, and the linker assembly, the invention comprising,
a computer on the frame, a casing diameter sensor located on the frame located downstream of an exit end of the tube to sense the diameter of the casing downstream of the exit end of the tube, the sensor being operatively connected to the computer to transmit data to the computer as to the casing being sensed, the computer being programmed to predetermined diameter parameters for a range of acceptable casing diameters.
- 14. The machine of claim 13 wherein the sensor scans for a predetermined time a length of the casing to gather a plurality of diameter data of the casing as the casing moves downstream from the exit end of the tube, the computer determining the average diameter of the tube sensed during the predetermined time, whereupon the average diameter is used by the computer for comparison with the predetermined diameter parameters.
- 15. The machine of claim 13 wherein the sensor is located over the linking assembly.
- 16. The machine of claim 13 wherein the sensor is an ultrasound proximity sensor.
- 17. The machine of claim 13 wherein the sensor is an optical signal proximity sensor.
- 18. The machine of claim 13 wherein the sensor is an mechanical-electrical proximity sensor.
- 19. A method of controlling a sausage encasing machine including a frame, a meat emulsion pump, and an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a casing linking assembly on the frame downstream of the twister assembly to link the casing filled with meat emulsion, and power means on the frame for operating the pump, the twisting assembly and the linking assembly, the invention comprising,
placing an elongated hollow sausage casing on the tube so that meat emulsion exiting the tube will fill the casing, providing operational power to the pump, the twisting assembly, and the linking assembly, sensing the outer diameter of the casing downstream from the exit end of the tube, comparing the sensed diameter of the casing with predetermined diameter parameters for a range of acceptable casing diameters, causing the computer to stop the operation of the machine if the measured diameter is outside the predetermined diameter parameters.
- 20. The machine of claim 14 wherein the sensor has means to ignore signals created by the passage of machine components that may be scanned by the sensor.
- 21. The method of claim 19 wherein a sensor provides the sensing, and ignores signals created by the passage of machine components that may be scanned by the sensor.
- 22. A sausage encasing machine including a frame, a meat emulsion pump, an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a casing linking assembly on the frame downstream to link the casing filled with meat emulsion, and power means on the frame for operating the pump, and the linker assembly, the invention comprising,
a casing diameter sensor located on the frame located downstream of an exit end of the tube to sense the diameter of the casing downstream of the exit end of the tube.
- 23. A method of controlling a sausage encasing machine including a frame, a meat emulsion pump, and an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a casing linking assembly on the frame downstream of the twister assembly to link the casing filled with meat emulsion, and power means on the frame for operating the pump, the twisting assembly and the linking assembly, the invention comprising,
placing an elongated hollow sausage casing on the tube so that meat emulsion exiting the tube will fill the casing, providing operational power to the pump, the twisting assembly, and the linking assembly, sensing the outer diameter of the casing downstream from the exit end of the tube.
- 24. A sausage encasing machine including a frame, a meat emulsion pump, an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a casing linking assembly on the frame downstream to link the casing filled with meat emulsion, and power means on the frame for operating the pump, and the linker assembly, the invention comprising,
a casing sensor located on the frame located downstream of an exit end of the tube to sense the position of the upper surface of the casing downstream of the exit end of the tube.
- 25. A method of controlling a sausage encasing machine including a frame, a meat emulsion pump, and an elongated stuffing tube operatively connected to the pump for receiving meat emulsion therefrom and being adapted to slidably receive an elongated hollow sausage casing on an outer surface thereof, a casing linking assembly on the frame downstream of the twister assembly to link the casing filled with meat emulsion, and power means on the frame for operating the pump, the twisting assembly and the linking assembly, the invention comprising,
placing an elongated hollow sausage casing on the tube so that meat emulsion exiting the tube will fill the casing, providing operational power to the pump, the twisting assembly, and the linking assembly, sensing the position of the upper surface of the casing downstream from the exit end of the tube.
CROSS REFERENCE TO RELATED APPLICATION
[0001] This application is based upon the Applicants' Provisional Application Serial No. 60/238,227 filed Oct. 5, 2000.
Provisional Applications (1)
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Number |
Date |
Country |
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60238227 |
Oct 2000 |
US |