초록 ▼

A product fill system and method uses a mode valve. The mode valve is a shuttle valve that allows the shock tube to communicate with the filler valve during a fill operation corresponding to fill mode of the mode valve. If the filler valve is shut off, any overpressure can pass through the mode valv

A product fill system and method uses a mode valve. The mode valve is a shuttle valve that allows the shock tube to communicate with the filler valve during a fill operation corresponding to fill mode of the mode valve. If the filler valve is shut off, any overpressure can pass through the mode valve and be absorbed by the shock tube. The mode valve can be switched into a clean mode in which the shock tube is connected more directly in the circuit between the upstream side of the mode valve and the filler valve. In other words, the shock tube is on a side circuit of the main circuit used for product feeding during the fill operation. However, during the clean operation, the shock tube is in the circuit such that cleaning material travels completely throughout the shock tube. The method of the present invention involves the use of the product fill system so as to accommodate cleaning without disassembly of parts.

대표청구항 ▼

What is claimed is: 1. A product fill system comprising: a filler valve at a fill end of a circuit such that a product flows in a path from a source of the product through the filler valve during a fill operation; a shock tube in communication with the circuit; and a mode valve connected to the ci

What is claimed is: 1. A product fill system comprising: a filler valve at a fill end of a circuit such that a product flows in a path from a source of the product through the filler valve during a fill operation; a shock tube in communication with the circuit; and a mode valve connected to the circuit and the shock tube is connected to the path via the mode valve, and the mode valve includes: a fill mode in which any overpressure caused by shut off of the filler valve will travel through the mode valve into the shock tube; and a clean mode in which passage of a cleaning material from the source is directed from the mode valve through a first end of the shock tube and out a second end of the shock tube towards the filler valve by way of the mode valve. 2. The product fill system of claim 1 wherein the mode valve has first, second, third, and fourth ports. 3. The product fill system of claim 2 wherein the mode valve, when disposed in the fill mode, has communication between the first, second, and third ports and the fourth port is not in communication with other ports. 4. The product fill system of claim 3 wherein the mode valve, when disposed in the clean mode, has communication between the first and fourth ports and separate communication between the second and third ports. 5. The product fill system of claim 4 wherein the mode valve, when disposed in the clean mode, is operable to pass cleaning material from the third port to the second port. 6. The product fill system of claim 5 further comprising a shock tube valve between the mode valve and the first end of the shock tube, the shock tube valve being closed when the mode valve is in the fill mode and being open when the mode valve is in the clean mode. 7. The product fill system of claim 1 wherein, with the mode valve in the fill mode, any overpressure caused by shut off of the filler valve will travel through the mode valve to enter the second end of the shock tube. 8. A product fill system comprising: a filler valve at a fill end of a circuit such that a product flows in a path from a source of the product through the filler valve during a fill operation; a shock tube in communication with the circuit, the shock tube having first and second ends; and a mode valve connected to the circuit and the shock tube is connected to the path via the mode valve; and the mode valve includes a fill mode in which any overpressure caused by shut off of the filler valve will travel through the mode valve into the second end of the shock tube; and a clean mode in which passage of a cleaning material from upstream of the mode valve on the path is directed from the mode valve through the first end of the shock tube and out the second end of the shock tube towards the filler valve. 9. The product fill system of claim 8 wherein, in the clean mode, the mode valve directs cleaning material from the second end of the shock tube towards the filler valve. 10. The product fill system of claim 8 wherein the mode valve has first, second, third, and fourth ports. 11. The product fill system of claim 10 wherein the mode valve, when disposed in the fill mode, has communication between the first, second, and third ports and the fourth port is not in communication with other ports. 12. The product fill system of claim 10 wherein the mode valve, when disposed in the clean mode, has communication between the first and fourth ports and separate communication between the second and third ports. 13. The product fill system of claim 4 wherein the mode valve, when disposed in the clean mode, is operable to pass cleaning material from the third port to the second port. 14. The product fill system of claim 13 further comprising a shock tube valve between the mode valve and the first end of the shock tube, the shock tube valve being closed when the mode valve is in the fill mode and being open when the mode valve is in the clean mode. 15. The product fill system of claim 14 wherein, with the mode valve in the fill mode, any overpressure caused by shut off of the filler valve will travel through the mode valve to enter the second end of the shock tube. 16. The product fill system of claim 8 further comprising a shock tube valve between the mode valve and the first end of the shock tube, the shock tube valve being closed when the mode valve is in the fill mode and being open when the mode valve is in the clean mode. 17. The product fill system of claim 8 wherein, with the mode valve in fill mode, any overpressure caused by shut off of the filler valve will travel through the mode valve to enter the second end of shock tube. 18. A method comprising: using a mode valve to dispose a product fill system in a fill mode in which a product goes from a product source through the mode valve to a filler valve and in which any overpressure from the closing of the filler valve passes through the mode valve and enters one end of a shock tube; and switching the mode valve into a clean mode such that cleaning material passes from the circuit upstream of the mode valve through the mode valve to an opposite end of the shock tube and out the one end of the shock tube. 19. The method of claim 18 wherein, with the mode valve in fill mode, any overpressure caused by shut off of the filler valve will travel through the mode valve to enter the one end of shock tube via first, second and third ports in the mode valve. 20. The method of claim 19 wherein the switching of the mode valve into clean mode allows communication between first and fourth ports in the mode valve and separate communication between second and third ports in the mode valve.