IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0268036
(1981-05-28)
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발명자
/ 주소 |
- Skoch, Leroy V.
- Pike, Keith E.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
9 인용 특허 :
2 |
초록
▼
An improved pellet mill die is disclosed which has improved production efficiency without a corresponding loss in pellet quality or durability. The die comprises a compression side, a discharge side, and a plurality of die holes extending through the die. The die holes have a countersink on the comp
An improved pellet mill die is disclosed which has improved production efficiency without a corresponding loss in pellet quality or durability. The die comprises a compression side, a discharge side, and a plurality of die holes extending through the die. The die holes have a countersink on the compression side, and preferably at least a portion of die holes have a relief section to thereby define a working section of the die hole where the pellet is formed, and an effective thickness for the die holes which is preferably less than the distance between the compression and discharge side of the die. The die has a ratio of effective thickness to countersink diameter of at least about 1.8 to 1 wherein the countersink diameter is at least about 137% and preferably between about 137-159% of the working section diameter.
대표청구항
▼
1. A pellet mill die comprising a compression side, a discharge side and at least one die hold extending through said die, having a countersink on the compression side, said die hole having a working section for pellet formation, said section having a diameter that defines pellet size and a length t
1. A pellet mill die comprising a compression side, a discharge side and at least one die hold extending through said die, having a countersink on the compression side, said die hole having a working section for pellet formation, said section having a diameter that defines pellet size and a length that defines the effective thickness for the die hole, said die hole having ratio of effective thickness to countersink diameter which is at least about 1.8 to 1 and a countersink diameter which is between about 137% to 159% of the working section diameter. 2. The pellet die of claim 1 wherein said die hole has a ratio of effective thickness to countersink diameter which is at least about 2.3 to 1. 3. The pellet die of claim 1 wherein said die hole has a ratio of effective thickness to countersink diameter which is between about 2.3-4.1 to 1. 4. The pellet die of claim 3 wherein said die hole has a ratio of effective thickness to countersink diameter which is between about 3.1-3.6 to 1. 5. The pellet die of claim 1 wherein said die hole has a countersink diameter which is between about 142-148% of the working section diameter. 6. The pellet die of claim 1 wherein said die has a plurality of holes. 7. A pellet mill die comprising a compression side, a discharge side and at least one die hole extending through said die, having a countersink on the compression side, said die hole having a relief section for pellet expansion and a working section for pellet formation, said working section having a diameter that defines pellet size and a length that defines the effective thickness for the die hole, said die hole having a ratio of effective thickness to countersink diameter which is between about 137% to 159% of the working section diameter. 8. The pellet die of claim 7 wherein said die hole has a ratio of effective thickness to countersink diameter, which is at least about 2.3 to 1. 9. The pellet dies of claim 7 wherein said die hole has a ratio of effective thickness to countersink diameter, which is between about 2.3-4.1 to 1. 10. The pellet die of claim 9 wherein said die hole has a ratio of effective thickness to countersink diameter which is between about 3.1-3.6 to 1. 11. The pellet die of claim 8 wherein said die hole has a countersink diameter which is between about 142-148% of the working section diameter. 12. The pellet die of claim 7 wherein said die has a plurality of holes. 13. A pellet mill die comprising a compression side, a discharge side and a plurality of die holes extending through said die having a countersink on the compression side, said holes having a relief section of uniform length and a working section of a diameter that defines pellet size having a uniform length which defines the effective thickness for the die, a substantial percentage of said die holes having a ratio of effective thickness to countersink diameter which is at least about 1.8 to 1 and a countersink diameter which is between about 137% to 159% of the working section diameter. 14. The pellet mill die of claim 13 wherein said die holes have a ratio of effective thickness to countersink diameter which is at least about 2.3 to 1. 15. The pellet die of claim 13 wherein said die holes have a ratio of effective thickness to countersink diameter which is between about 2.3-4.1 to 1. 16. The pellet mill die of claim 15 wherein said die holes have a ratio of effective thickness to countersink diameter which is between about 3.1-3.6 to 1. 17. The pellet mill die of claim 13 wherein said die holes have a countersink diameter which is between about 142-148% of the working section diameter. 18. The pellet mill die of claim 13 wherein the percentage of die holes comprises at least about 50%. 19. The pellet mill die of claim 13 wherein the percentage of die holes comprises at least about 80%. 20. A pellet mill die comprising a compression side, a discharge side and a plurality of die holes extending through said die, having a countersink on the compression side, a predetermined portion of said holes having a relief section of greater length and a working section of less length than the remaining holes thereby defining an average effective thickness for said die which is less than the overall thickness of the die, said working section having a diameter that defines pellet size, a substantial percentage of said die holes having a ratio of average effective thickness to countersink diameter which is at least about 1.8 to 1 and a countersink diameter which is between about 137% to 159% of the working section diameter. 21. The pellet mill die of claim 20 wherein said die holes have a ratio of average effective thickness to countersink diameter which is at least 2.3 to 1. 22. The pellet mill die of claim 20 wherein said die holes have a ratio of effective thickness of countersink diameter which is between about 2.3-4.1 to 1. 23. The pellet mill die of claim 22 wherein said die holes have a ratio of average effective thickness to countersink diameter which is between about 3.1-3.6 to 1. 24. The pellet mill die of claim 20 wherein said die holes have a countersink diameter which is between about 142-148% of the working section diameter. 25. The pellet mill die of claim 20 wherein the percentage of die holes comprises at least about 50%. 26. The pellet mill die of claim 20 wherein the percentage of die holes comprises at least about 80%. 27. A pellet mill die comprising a compression side, a discharge side and a plurality of die holes extending through said die, having a countersink on the compression side, a first predetermined portion of said holes having a relief section of greater length and a working section of less length than the remaining holes, a second predetermined portion of said holes having a relief section and working section of a length intermediate to said first portion and the remaining holes, thereby defining an average effective thickness for said die which is less than the overall thickness of the die, said working section having a diameter that defines pellet size, a substantial percentage of said die holes having a ratio of average effective thickness to countersink diameter which is at least about 1.8 to 1 and a countersink diameter which is between about 137% to 159% of the working section diameter. 28. The pellet mill die of claim 27 wherein said die holes have a ratio of average effective thickness to countersink diameter which is at least about 2.3 to 1. 29. The pellet mill die of claim 27 wherein said die holes have a ratio of average effective thickness to countersink diameter which is between about 2.3-4.1 to 1. 30. The pellet mill die of claim 29 wherein said die holes have a ratio of average effective thickness to countersink diameter which is between about 3.1-3.6 to 1. 31. The pellet mill die of claim 27 wherein said die holes have a countersink diameter which is between about 142-148% of the working section diameter. 32. The pellet mill die of claim 27 wherein the percentage of die holes comprises at least about 50%. 33. The pellet mill die of claim 27 wherein the percentage of die holes comprises at least about 80%.
이 특허에 인용된 특허 (2)
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Trickett Stanley (Upton-St-Leonards GB2), Die for pelletizing machine.
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Cooper Earl D. (Borger TX), Process and die for extrusion of a resinous material.
이 특허를 인용한 특허 (9)
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Keller, Brian David; Dostal, David Frank; England, Alfred Bruce, Dies for making extruded synthetic wood and methods relating thereto.
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Oki, Yuzuru; Noda, Hiroshi, Dividing apparatus.
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Franz, Peter H.; Nelson, Martin J.; Nelson, Michael L., Feed supplement and method.
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Ethington, Jr., Reed T., Liquid byproduct from agricultural processing and fibrous portion from milling feed.
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Key, Edward John, Method of making granules and the granulator.
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Mochizuki, Shotaro, Method of producing granular excreta treating material using an extrusion type compressive granulating apparatus.
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Rowland Thomas J. (Sydney AUX), Pellet extrusion die.
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Walker, Steven J., Pellet mill.
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Lund Robert E. (Minneapolis MN), Pressure roller including air relief mechanism.
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