Emitter and drip irrigation tube

The invention claimed is: 1. An emitter configured to be joined on an inner wall surface of a tube for carrying irrigation liquid at a position corresponding to a discharging port communicating between inside and outside of the tube, the emitter being configured to quantitatively discharge the irrigation liquid in the tube from the discharging port to the outside of the tube, the emitter comprising: a water intake part for intake of the irrigation liquid; a first pressure reduction channel part for forming a first pressure reduction channel that allows the irrigation liquid received at the water intake part to flow therethrough while reducing a pressure of the irrigation liquid received at the water intake part; a discharge rate adjusting part for controlling a flow rate of the irrigation liquid supplied from the first pressure reduction channel in accordance with a pressure of the irrigation liquid in the tube; and a discharging part for housing the irrigation liquid supplied from the discharge rate adjusting part, the discharging part being configured to face the discharging port, wherein: the discharge rate adjusting part includes: a hole for communicating between the first pressure reduction channel and the discharging part, a first valve seat part surrounding an edge of the hole, and composed of a protruded annular surface slanted from the edge or a recessed annular surface slanted toward the edge, a groove formed on a surface of the first valve seat part to cross the first valve seat part, wherein a depth of the groove from the surface of the first valve seat part gradually decreases in a direction from a top edge to a bottom edge of the first valve seat part at at least a bottom edge part of the first valve seat part, and a film having flexibility, and disposed such that the film is separated from the first valve seat part at a position where the film is allowed to gradually make contact with the first valve seat part from the top edge toward the bottom edge when the pressure of the irrigation liquid in the tube is equal to or greater than a set value, the emitter further comprising an emitter main body and the film joined to and disposed on a top surface of the emitter main body, and the water intake part, the first pressure reduction channel part, the discharging part, the hole, the first valve seat part, and the groove are disposed on the emitter body. 2. The emitter according to claim 1 , wherein the protruded annular surface or the recessed annular surface is composed of an annular surface whose inclination angle discontinuously changes from the top edge toward the bottom edge of the first valve seat part. 3. The emitter according to claim 1 , wherein the protruded annular surface or the recessed annular surface is composed of an annular curved surface whose inclination angle continuously changes from the top edge toward the bottom edge of the first valve seat part. 4. The emitter according to claim 1 , wherein a bottom surface of the groove includes a portion slanted in the direction from the top edge to the bottom edge of the first valve seat part. 5. The emitter according to claim 1 , further comprising a bypass channel part for forming a bypass channel that bypasses a part or all of the first pressure reduction channel part and communicates between an upstream side of the discharge rate adjusting part and the water intake part, wherein the bypass channel part further includes a second valve seat part capable of making contact with the film under the pressure of the irrigation liquid in the tube such that the film closes the bypass channel. 6. The emitter according to claim 5 , wherein the bypass channel part further includes a guide groove for guiding, to the upstream side of the discharge rate adjusting part, the irrigation liquid supplied to the second valve seat part. 7. The emitter according to claim 5 , wherein the bypass channel part further includes a second pressure reduction channel part for forming a second pressure reduction channel configured to allow the irrigation liquid to flow toward the second valve seat part while reducing the pressure of the irrigation liquid. 8. The emitter according to claim 1 , wherein the water intake part includes a screen part including a slit that opens to the inside of the tube. 9. The emitter according to claim 1 , wherein the discharging part includes an intrusion preventing part for preventing intrusion of foreign matters from the discharging port. 10. The emitter according to claim 1 , wherein the emitter is integrally molded with a resin material having flexibility. 11. A drip irrigation tube comprising: the tube including the discharging port for discharging irrigation liquid; and the emitter according to claim 1 joined on the inner wall surface of the tube at a position corresponding to the discharging port.