IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0119872
(2005-05-02)
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등록번호 |
US-7267144
(2007-09-11)
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발명자
/ 주소 |
- Nyhof,Scott L.
- Smith,Jesse L.
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출원인 / 주소 |
- Material Transfer & Storage, Inc.
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대리인 / 주소 |
Price Heneveld Cooper DeWitt & Litton, LLP
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인용정보 |
피인용 횟수 :
4 인용 특허 :
22 |
초록
▼
A bulk bag filling system includes a frame having a base, a fill carriage coupled to the frame and a rotary carriage. The fill carriage is alignable with a fill port for receiving a bulk material. The rotary carriage includes a plurality of bag loop hangers for receiving bag loops of a bag to be fil
A bulk bag filling system includes a frame having a base, a fill carriage coupled to the frame and a rotary carriage. The fill carriage is alignable with a fill port for receiving a bulk material. The rotary carriage includes a plurality of bag loop hangers for receiving bag loops of a bag to be filled. The rotary carriage is movably coupled to the fill carriage and a spout, for receiving a neck of the bag to be filled, extends through the rotary carriage. The spout is alignable with the fill port.
대표청구항
▼
What is claimed is: 1. A bulk bag filling system, comprising: a frame including a base; an input/output device attached to the frame, wherein the input/output device is configured to receive input from an operator and provide output to the operator; a fill carriage movably coupled to the frame and
What is claimed is: 1. A bulk bag filling system, comprising: a frame including a base; an input/output device attached to the frame, wherein the input/output device is configured to receive input from an operator and provide output to the operator; a fill carriage movably coupled to the frame and including a fill carriage actuator for effecting movement of the fill carriage, wherein the fill carriage is alignable with a fill port for receiving a bulk material; a rotary carriage including a plurality of bag loop hangers for receiving bag loops of a bag to be filled, wherein the rotary carriage is movably coupled to the fill carriage and a spout for receiving a neck of the bag to be filled extends through the rotary carriage, and wherein the spout is alignable with the fill port and the rotary carriage includes at least one bag loop hanger actuator for effecting movement of a bag loop capture pin of the bag loop hangers; a processor coupled to the input/output device, the fill carriage actuator and the bag loop hanger actuator; and a memory subsystem coupled to the processor, the memory subsystem storing code that responsive to input from an operator instructs the processor to perform the steps of: controlling the fill carriage actuator to position the fill carriage into a bag loading position; controlling the bag loop hanger actuator to position the bag loop capture pin in a bag loop receive position; controlling the bag loop hanger actuator to position the bag loop capture pin in a bag loop capture position; and controlling the fill carriage actuator to position the fill carriage and the bag into a bag filling position. 2. The system of claim 1, further comprising: a bag spout sealing subsystem positioned adjacent the spout, the bag spout sealing subsystem including a bag spout sealing actuator; a bag inflator subsystem including a bag inflator actuator, wherein the bag spout sealing actuator and the bag inflator actuator are coupled to the processor and the memory subsystem stores additional code that responsive to input provided by the operator instructs the processor to perform the additional steps of: controlling the bag sealing actuator to seal the neck of the bag and the spout; and controlling the bag inflator actuator to inflate the bag for receiving the bulk material. 3. The system of claim 1, further comprising: a vibrator positioned in the base, wherein the vibrator is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional step of: controlling the vibrator to vibrate the bulk material within the bag as the bag is filled. 4. The system of claim 1, further comprising: a scale positioned in the base, wherein the scale is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional step of: reading the scale to determine the weight of the bulk material within the bag as the bag is filled. 5. The system of claim 1, wherein the rotary carriage includes a rotary carriage actuator for effecting rotary movement of the rotary carriage, and wherein the rotary carriage actuator is coupled to and controlled by the processor. 6. The system of claim 4, further comprising: a height adjustment actuator attached between the frame and the fill carriage for adjusting a vertical position of the fill carriage with respect to the frame, wherein the height adjustment actuator is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional steps of: controlling the height adjustment actuator to adjust the height of the fill carriage to an operator selectable height when the fill carriage is positioned in the bag loading position; controlling the height adjustment actuator to adjust the height of the fill carriage to a bag filling position height when the fill carriage is positioned in the bag filling position; controlling the bag loop hanger actuator to position the bag loop capture pin in the bag loop receive position to release the bag loops; and controlling the height adjustment actuator to adjust the height of the fill carriage to a bag unloading position height when the scale indicates that the bag has reached a desired weight. 7. A bulk bag filling system, comprising: a frame including a base; a fill carriage coupled to the frame, wherein the fill carriage is alignable with a fill port for receiving a bulk material; and a rotary carriage spaced around a spout extending through the rotary carriage and a plurality of bag loop hangers for receiving bag loops of a bag to be filled, wherein the rotary carriage is movably coupled to the fill carriage, and wherein the spout is alignable with the fill port and wherein the bag loop hangers extend laterally from the rotary carriage and wherein the rotary carriage is rotatable about the spout. 8. The system of claim 7, further comprising: an input/output device attached to the frame, wherein the input/output device is configured to receive input from an operator and provide output to the operator and at least one bag loop hanger actuator for effecting movement of a bag loop capture pin of the bag loop hangers, and where the fill carriage is movably coupled to the frame and includes a fill carriage actuator for effecting movement of the fill carriage; a processor coupled to the input/output device, the fill carriage actuator and the bag loop hanger actuator; and a memory subsystem coupled to the processor, the memory subsystem storing code that responsive to input from an operator instructs the processor to perform the steps of: controlling the fill carriage actuator to position the fill carriage into a bag loading position; controlling the bag loop hanger actuator to position the bag loop capture pin in a bag loop receive position; controlling the bag loop hanger actuator to position the bag loop capture pin in a bag loop capture position; and controlling the fill carriage actuator to position the fill carriage and the bag into a bag filling position. 9. The system of claim 8, further comprising: a bag spout sealing subsystem positioned adjacent the spout, the bag spout sealing subsystem including a bag spout sealing actuator; and a bag inflator subsystem including a bag inflator actuator, wherein the bag spout sealing actuator and the bag inflator actuator are coupled to the processor and the memory subsystem stores additional code that responsive to input provided by the operator instructs the processor to perform the additional steps of: controlling the bag sealing actuator to seal the neck of the bag and the spout; and controlling the bag inflator actuator to inflate the bag for receiving the bulk material. 10. The system of claim 9, further comprising: a vibrator positioned in the base, wherein the vibrator is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional step of: controlling the vibrator to vibrate the bulk material within the bag as the bag is filled. 11. The system of claim 10, further comprising: a scale positioned in the base, wherein the scale is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional step of: reading the scale to determine the weight of the bulk material within the bag as the bag is filled. 12. The system of claim 11, wherein the rotary carriage includes a rotary carriage actuator for effecting rotary movement of the rotary carriage, and wherein the rotary carriage actuator is coupled to and controlled by the processor. 13. The system of claim 12, further comprising: a height adjustment actuator attached between the frame and the fill carriage for adjusting a vertical position of the fill carriage with respect to the frame, wherein the height adjustment actuator is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional steps of: controlling the height adjustment actuator to adjust the height of the fill carriage to an operator selectable height when the fill carriage is positioned in the bag loading position; controlling the height adjustment actuator to adjust the height of the fill carriage to a bag filling position height when the fill carriage is positioned in the bag filling position; controlling the bag loop hanger actuator to position the bag loop capture pin in the bag loop receive position to release the bag loops; and controlling the height adjustment actuator to adjust the height of the fill carriage to a bag unloading position height when the scale indicates that the bag has reached a desired weight. 14. A bulk bag filling system, comprising: a frame including a base; a fill carriage coupled to the frame, wherein the fill carriage is alignable with a fill port for receiving a bulk material; a height adjustment actuator attached between the frame and the fill carriage for adjusting a vertical position of the fill carriage with respect to the frame; a rotary carriage movably coupled to the fill carriage and wherein a spout for receiving a neck of the bag to be filled extends through the rotary carriage, and wherein the spout is alignable with the fill port; and wherein the rotary carriage is rotatable about the spout; and a plurality of bag loop hangers for receiving bag loops of a bulk bag to be filled wherein the bag loop hangers each comprise a bag loop capture pin and wherein the bag loop hangers extend laterally from the rotary carriage. 15. The system of claim 14, further comprising: an input/output device attached to the frame, wherein the input/output device is configured to receive input from an operator and provide output to the operator, and wherein the rotary carriage includes at least one bag loop hanger actuator for effecting movement of the bag loop capture pin of the bag loop hangers, and where the fill carriage is movably coupled to the frame and includes a fill carriage actuator for effecting movement of the fill carriage; a processor coupled to the input/output device, the fill carriage actuator and the bag loop hanger actuator; and a memory subsystem coupled to the processor, the memory subsystem storing code that responsive to input from an operator instructs the processor to perform the steps of: controlling the fill carriage actuator to position the fill carriage into a bag loading position; controlling the bag loop hanger actuator to position the bag loop capture pin in a bag loop receive position; controlling the bag loop hanger actuator to position the bag loop capture pin in a bag loop capture position; and controlling the fill carriage actuator to position the fill carriage and the bag into a bag filling position. 16. The system of claim 15, further comprising: a bag spout sealing subsystem positioned adjacent the spout, the bag spout sealing subsystem including a bag spout sealing actuator; and a bag inflator subsystem including a bag inflator actuator, wherein the bag spout sealing actuator and the bag inflator actuator are coupled to the processor and the memory subsystem stores additional code that responsive to input provided by the operator instructs the processor to perform the additional steps of: controlling the bag sealing actuator to seal the neck of the bag and the spout; and controlling the bag inflator actuator to inflate the bag for receiving the bulk material. 17. The system of claim 15, further comprising: a vibrator positioned in the base, wherein the vibrator is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional step of: controlling the vibrator to vibrate the bulk material within the bag as the bag is filled. 18. The system of claim 15, further comprising: a scale positioned in the base, wherein the scale is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional step of: reading the scale to determine the weight of the bulk material within the bag as the bag is filled. 19. The system of claim 15, wherein the rotary carriage includes a rotary carriage actuator for effecting rotary movement of the rotary carriage, and wherein the rotary carriage actuator is coupled to and controlled by the processor. 20. The system of claim 15, wherein the height adjustment actuator is coupled to the processor and the memory subsystem stores additional code that instructs the processor to perform the additional steps of: controlling the height adjustment actuator to adjust the height of the fill carriage to an operator selectable height when the fill carriage is positioned in the bag loading position; controlling the height adjustment actuator to adjust the height of the fill carriage to a bag filling position height when the fill carriage is positioned in the bag filling position; controlling the bag loop hanger actuator to position the bag loop capture pin in the bag loop receive position to release the bag loops; and controlling the height adjustment actuator to adjust the height of the fill carriage to a bag unloading position height when the scale indicates that the bag has reached a desired weight. 21. The bulk bag filling system of claim 7, wherein each bag loop hanger comprises a bag loop capture pin and wherein the rotary carriage is circular.
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