Liquid ejection substrate, liquid ejection head, and liquid ejection apparatus

What is claimed is: 1. A liquid ejection substrate including an ejection opening that ejects a liquid, an ejection energy generation element that generates energy used to eject the liquid, and a pressure chamber that has the ejection energy generation element provided therein, wherein the liquid ejection substrate includes a first portion and a second portion deviated from each other in a thickness direction of the liquid ejection substrate, wherein the first portion is provided with a supply passage disposed at one side of the pressure chamber to supply the liquid to the pressure chamber and a collection passage disposed at the other side of the pressure chamber to collect the liquid from the pressure chamber, and wherein the second portion is provided with a common supply passage communicating with a plurality of the supply passages and a common collection passage communicating with a plurality of the collection passages. 2. The liquid ejection substrate according to claim 1 , wherein the supply passage and the collection passage extend in a direction intersecting a face provided with the ejection energy generation element, and wherein in a case where a passage resistance per unit length from a downstream end of the supply passage to an upstream end of the collection passage through the pressure chamber is indicated by R, a flow amount of the liquid flowing through the pressure chamber while the liquid is not ejected from the ejection opening is indicated by Q1, and a maximal negative pressure capable of ejecting the liquid from the ejection opening is indicated by P, a beam width W between the common supply passage and the common collection passage satisfies a relation of W<(2×P)/(Q1×R). 3. The liquid ejection substrate according to claim 1 , wherein the supply passage and the collection passage extend in a direction intersecting a face provided with the ejection energy generation element, and wherein in a case where a passage resistance per unit length from a downstream end of the supply passage to an upstream end of the collection passage through the pressure chamber is indicated by R, a maximal ejection amount of the liquid ejected from the ejection opening is indicated by Q2, and a maximal negative pressure capable of ejecting the liquid from the ejection opening is indicated by P, a beam width W between the common supply passage and the common collection passage satisfies a relation of W<(2×P)/(Q2×R). 4. The liquid ejection substrate according to claim 1 , wherein a plurality of the ejection openings are arranged to form an ejection opening array extending in a first direction, wherein a width of the supply passage in a second direction orthogonal to the first direction is smaller than a width of the common supply passage in the second direction, and wherein a width of the collection passage in the second direction is smaller than a width of the common collection passage in the second direction. 5. The liquid ejection substrate according to claim 1 , wherein the common supply passage and the common collection passage extend along each other and a gap W between the common supply passage and the common collection passage is 200 μm or less. 6. The liquid ejection substrate according to claim 1 , wherein a gap between the supply passage and the collection passage is smaller than a gap between the common supply passage and the common collection passage. 7. The liquid ejection substrate according to claim 1 , wherein a plurality of the ejection openings are arranged to form an ejection opening array extending in a first direction, wherein a center of the supply passage in a second direction orthogonal to the first direction is near the ejection opening in relation to a center of the common supply passage in the second direction, and wherein a center of the collection passage in the second direction is near the ejection opening in relation to a center of the common collection passage in the second direction. 8. The liquid ejection substrate according to claim 1 , wherein a plurality of the ejection openings are arranged to form an ejection opening array extending in a first direction, and wherein the common supply passage and the common collection passage extend in the first direction. 9. The liquid ejection substrate according to claim 1 , wherein the supply passage and the collection passage extend in a direction intersecting a face provided with the ejection energy generation element of the liquid ejection substrate and the common supply passage and the common collection passage extend in a direction along the face. 10. The liquid ejection substrate according to claim 1 , wherein the liquid ejection substrate has a substantially parallelogram shape, wherein both ends of a first common supply passage communicating with a first ejection opening array having a plurality of the ejection openings arranged therein in a first direction and both ends of a second common supply passage communicating with a second ejection opening array provided in parallel to the first ejection opening array are deviated in the first direction. 11. The liquid ejection substrate according to claim 10 , wherein both ends of at least one of the common supply passage and the common collection passage communicating with the first ejection opening array in the first direction are formed in a chamfered shape or a round shape. 12. The liquid ejection substrate according to claim 1 , wherein in a case where a beam width between the common supply passage and the common collection passage communicating with a first ejection opening array having a plurality of the ejection openings arranged therein is indicated by W1, and a beam width between the common supply passage communicating with the first ejection opening array and the common collection passage communicating with a second ejection opening array provided in parallel to the first ejection opening array is indicated by W3, a relation of W1<W3 is satisfied. 13. The liquid ejection substrate according to claim 1 , wherein the liquid ejection substrate ejects a plurality of kinds of liquid, and wherein in a case where a beam width between the common supply passage and the common collection passage located between adjacent ejection opening arrays ejecting the same kind of liquid is indicated by W3, and a beam width between the common supply passage and the common collection passage located between adjacent ejection opening arrays ejecting different kinds of liquid is indicated by W4, a relation of W3<W4 is satisfied. 14. A liquid ejection substrate including an ejection opening that ejects a liquid, an ejection energy generation element that generates energy used to eject the liquid, and a pressure chamber that has the ejection energy generation element provided therein, the liquid ejection substrate comprising: a supply passage that is disposed at one side of the pressure chamber and extends in a direction intersecting a face provided with the ejection energy generation element; a collection passage that is disposed at the other side of the pressure chamber and extends in a direction intersecting the face provided with the ejection energy generation element; a common supply passage that communicates with a plurality of the supply passages; and a common collection passage that communicates with a plurality of the collection passages, wherein in a case where a passage resistance per unit length from a downstream end of the supply passage to an upstream end of the collection passage through the pressure chamber is indicated by R, a flow amount of the liquid flowing through the pressure