Liquid ejection module

What is claimed is: 1. A liquid ejection module comprising: a pressure chamber that communicates with an ejection port and which stores a liquid ejected from the ejection port; an energy generation element that is provided in the pressure chamber and which produces energy for causing a liquid to be ejected from the ejection port; a supply flow path that supplies a liquid to the pressure chamber; a collecting channel that collects a liquid from the pressure chamber; a liquid sending chamber that connects to the collecting channel; a connection flow path that connects the liquid sending chamber and the supply flow path; and a liquid sending unit configured to circulate a liquid in the supply flow path, the pressure chamber, the collecting channel, the liquid sending chamber, and the connection flow path by expanding and contracting a volume of the liquid sending chamber, wherein the liquid sending chamber has a continuously inclined structure, in the liquid sending chamber, a cross-sectional area in a cross section parallel to a plane perpendicular to a gravity direction becomes smaller along a direction opposite to the gravity direction, and a portion at which the cross-sectional area becomes the smallest is a portion that connects to the connection flow path. 2. The liquid ejection module according to claim 1 , wherein the liquid sending unit is arranged at a position facing an opening position of the connection flow path so as to sandwich the liquid sending chamber. 3. The liquid ejection module according to claim 1 , wherein the collecting channel is arranged at a position closer to the liquid sending unit than to the connection flow path. 4. The liquid ejection module according to claim 1 , wherein inertance of, in a case of being viewed from the liquid sending unit, the supply flow path, the pressure chamber, the collecting channel, and part of the liquid sending chamber is not less than 2.5 times and not more than 25 times inertance of, in a case of being viewed from the liquid sending unit, the rest that is not the part of the liquid sending chamber and the connection flow path. 5. The liquid ejection module according to claim 1 , wherein the liquid sending unit has a configuration including an actuator consisting of a piezoelectric element or an electrostrictive element. 6. The liquid ejection module according to claim 5 , wherein an opening area of the connection flow path is at least 1% or more and 10% or less at most for an area of the actuator consisting of a piezoelectric element or an electrostrictive element, which configures the liquid sending unit. 7. The liquid ejection module according to claim 1 , wherein an inclination angle of the inclined structure in the liquid sending chamber is not less than 30° and not more than 60° for a surface at which the liquid sending unit is arranged. 8. The liquid ejection module according to claim 1 , wherein the inclined structure in the liquid sending chamber is configured by a (111) plane of a Si single crystal substrate. 9. The liquid ejection module according to claim 1 , further comprising: a common supply flow path that supplies ink to the plurality of supply flow paths, wherein the common supply flow path has a sidewall substantially parallel to a wall surface of the liquid sending chamber. 10. The liquid ejection module according to claim 1 , further comprising: a first ejection port row; and a second ejection port row, wherein the ejection port in the first ejection port row and the ejection port in the second ejection port row share the supply flow path.