RU2016151773A - LIQUID PUSHING SUPPORT, LIQUID PUSHING HEAD AND LIQUID PUSHING DEVICE - Google Patents

Claims (69)

1. A liquid ejection support including an ejection opening that ejects the liquid, an ejection energy generating element that generates energy used to eject the liquid, and a pressure chamber that has an ejection energy generating element provided therein, - wherein the substrate for expelling the liquid includes a first part and a second part deflected from each other in the thickness direction of the substrate for expelling the liquid, - wherein the first part comprises a supply duct located on one side of the pressure chamber in order to supply fluid to the pressure chamber, and a collection duct located on the other side of the pressure chamber in order to collect fluid from the pressure chamber, and - while the second part contains a common duct for supply, communicating with many ducts for supply, and a common duct for collection, communicating with many ducts for collection. 2. The substrate for ejecting a liquid according to claim 1, in which the supply duct and the collection duct extend in a direction intersecting the surface containing the ejection energy generating element, and - in this case, if the resistance, when passing per unit length from the end of the discharge of the flow channel for supply to the end of the flow of the flow channel for collection through the pressure chamber, is indicated by R, the consumed amount of liquid flowing through the pressure chamber at the time when the liquid is not pushed out from the ejection hole is indicated by Q1, and the maximum negative pressure allowing the liquid to be ejected from the ejection hole is indicated by P, beam width W between the common current supply and a common duct for collecting satisfies the relation W <(2 * P) / (Q1 * R). 3. The substrate for ejecting a liquid according to claim 1, in which the supply duct and the collection duct extend in a direction intersecting the surface containing the ejection energy generating element, and - in this case, if the resistance, when passing per unit length from the end of the duct flow outlet for supplying to the end of the flow duct for collection through the pressure chamber, is indicated by R, the maximum amount of liquid pushed out of the expulsion opening is indicated by Q2, and the maximum negative pressure allowing the liquid to be pushed out of the ejection hole is indicated by P, the beam width W between the common supply duct and the common duct for collecting ud satisfies the relation W <(2 * P) / (Q2 * R). 4. A liquid ejection support including an ejection opening that ejects the liquid, an ejection energy generating element that generates energy used to eject the liquid, and a pressure chamber that has an ejection energy generating element provided therein, a liquid ejection substrate comprises: - a supply duct, which is located on one side of the pressure chamber and extends in the direction crossing the surface containing the expulsion energy generating element; - a duct for collection, which is located on the other side of the pressure chamber and passes in the direction crossing the surface containing the element of formation of the energy of the buoy; - a common supply duct that communicates with a plurality of supply ducts; and - a common duct for collection, which communicates with many ducts for collection, - in this case, if the resistance, when passing per unit length from the end of the discharge of the flow channel for supply to the end of the flow of the flow channel for collection through the pressure chamber, is indicated by R, the consumed amount of liquid flowing through the pressure chamber at the time when the liquid is not pushed out from the ejection hole is indicated by Q1, and the maximum negative pressure allowing the liquid to be ejected from the ejection hole is indicated by P, the gap W between the end of the outlet I flow of the common duct for supply and the end of the flow of the common duct for collection satisfies the ratio W <(2 * P) / (Q1 * R). 5. A liquid ejection support including an ejection opening that ejects the liquid, an ejection energy generating element that generates energy used to eject the liquid, and a pressure chamber that has an ejection energy generating element provided therein, a liquid ejection substrate comprises: - a supply duct, which is located on one side of the pressure chamber and extends in the direction crossing the surface containing the expulsion energy generating element; - a duct for collection, which is located on the other side of the pressure chamber and passes in the direction crossing the surface containing the element of formation of the energy of the buoy; - a common supply duct that communicates with a plurality of supply ducts; and - a common duct for collection, which communicates with many ducts for collection, - in this case, if the resistance, when passing per unit length from the end of the duct flow outlet for supplying to the end of the flow duct for collection through the pressure chamber, is indicated by R, the maximum amount of liquid pushed out of the expulsion opening is indicated by Q2, and the maximum negative pressure allowing the liquid to be pushed out of the ejection hole is indicated by P, the gap W between the end of the flow outlet of the common supply duct and the end of the post the flow rate of the common duct for collection satisfies the ratio W <(2 * P) / (Q2 * R). 6. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in which many of the holes for pushing made with the possibility of forming a matrix of holes for pushing, extending in the first direction, - wherein the width of the duct for feeding in the second direction orthogonal to the first direction is less than the width of the common duct for feeding in the second direction, and - wherein the width of the duct for collection in the second direction is less than the width of the common duct for collection in the second direction. 7. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in which the common supply duct and the common collection duct extend along each other, and the gap W between the common supply duct and the common collection duct is 200 μm or less. 8. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in which the gap between the supply duct and the collection duct is less than the gap between the common supply duct and the common collection duct. 9. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in which many of the holes for pushing made with the possibility of forming a matrix of holes for pushing, extending in the first direction, - the center of the duct for supply in the second direction, orthogonal to the first direction, is located near the hole for pushing relative to the center of the common duct for supply in the second direction, and - while the center of the duct for collection in the second direction is near the opening for pushing relative to the center of the common duct for collection in the second direction. 10. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in which many of the holes for pushing made with the possibility of forming a matrix of holes for pushing, extending in the first direction, and - while the common duct for supply and the common duct for collection pass in the first direction. 11. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in which the supply duct and the collection duct extend in a direction intersecting the surface containing the ejection energy generating element of the substrate for ejecting the liquid, and the common supply duct and the common collection duct extend in the direction along the surface. 12. The substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in this case, the substrate for ejecting the liquid has the form of a practically parallelogram, - wherein, both ends of the first common supply duct communicating with the first matrix of ejection openings having a plurality of ejection openings arranged therein in the first direction, and both ends of the second common supply duct communicating with the second matrix of ejection openings provided parallel to the first matrix of ejection holes are deflected in the first direction. 13. The substrate for pushing the liquid according to p. 12, - in which both ends of at least one of the common duct for supply and the common duct for collection, communicating with the first matrix of holes for pushing in the first direction, have a beveled shape or a circular shape. 14. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - in which if the width of the beam between the common supply duct and the common collection duct communicating with the first matrix of ejection openings having a plurality of ejection openings disposed therein is indicated by W1, and the width of the beam between the common supply duct communicating with the first matrix of ejection holes and a common collection duct communicating with the second matrix of ejection holes provided parallel to the first matrix of ejection holes is indicated by W3, the relationship W1 <W3 is satisfied. 15. A substrate for ejecting a liquid according to any one of paragraphs. 1-5, - while the substrate for pushing the liquid pushes many types of liquid, and - in this case, if the width of the beam between the common supply duct and the common collection duct located between adjacent matrices of ejection holes that eject an identical type of liquid is indicated by W3, and the width of the beam between the common supply duct and the common collection duct located between adjacent matrices of ejection holes, ejecting various types of liquid, indicated by W4, the relationship W3 <W4 is satisfied. 16. A head for ejecting a liquid containing a substrate for ejecting a liquid according to any one of paragraphs. 1-5. 17. The head for ejecting a liquid according to p. 16, - in which fluid in the pressure chamber circulates outside the pressure chamber. 18. A fluid ejection device, comprising: - a head for ejecting a liquid according to claim 16; - a controller configured to control a plurality of push energy generation elements; and - a differential pressure former configured to generate a differential pressure between the common supply duct and the common collection duct such that fluid flows through the common supply duct, the supply duct, the pressure chamber, the collection duct, and the common collection duct. 19. A liquid ejection head including an ejection opening that ejects the liquid, an ejection energy generating element that generates energy used to eject the liquid, and a pressure chamber that has an ejection energy generating element provided therein, The liquid ejection head contains: - a matrix of holes for pushing, in which there are many holes for pushing; - the first duct, which communicates with one side of the pressure chamber; - a second duct that communicates with the other side of the pressure chamber; - a matrix of supply ducts in which a plurality of supply ducts supplying liquid to the first duct are arranged in a direction of arranging a plurality of ejection openings, wherein the plurality of supply ducts extend in a direction intersecting a surface containing an ejection energy generating element; an array of collection ducts in which a plurality of collection ducts collecting liquid in a second duct are arranged in a direction of receiving a plurality of ejection openings, wherein the plurality of collection ducts extend in a direction of intersection; - a common supply duct that extends in the direction of placement of the plurality of ejection openings and communicates with the plurality of supply ducts; and - a common duct for collection, which extends in the direction of placement of the plurality of ejection openings and communicates with the plurality of ducts for collection. 20. The head for ejecting a liquid according to p. 19, - in which a plurality of matrixes of ejection holes are arranged in a direction crossing the direction of placement of the plurality of ejection holes, and - in this case, the matrix of ducts for supply and the matrix of ducts for collection are alternately arranged in a direction crossing the direction of placement of the plurality of ejection openings. 21. The head for ejecting a liquid according to claim 19 or 20, - in which fluid in the pressure chamber circulates outside the pressure chamber.