Emitter and drip irrigation tube

The invention claimed is: 1. An emitter configured to be joined to an inner wall surface of a tube for delivering 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: an emitter body; and a base seat configured to be housed in the emitter body, wherein the emitter body includes: an intake part configured to take in the irrigation liquid, a pressure reducing channel groove communicated with the intake part and configured to form a pressure reducing channel for carrying the irrigation liquid while depressurizing the irrigation liquid, a housing part communicated with the pressure reducing channel groove and configured to house the base seat, and a diaphragm part having flexibility and configured to approach the base seat when receiving a pressure of the irrigation liquid in the tube in a state where the base seat is housed in the housing part, wherein the base seat includes a through hole configured to discharge, toward the discharging port, the irrigation liquid carried into the housing part from the pressure reducing channel groove, wherein the emitter body and the base seat are connected to each other through a hinge part, wherein when the emitter is joined to the tube, the housing part is open at a surface of the emitter body on a side on which the emitter body is joined to the tube, wherein the hinge part is connected to a side surface of the emitter body, the side surface being contiguous with the surface of the emitter body on the side on which the emitter body is joined to the tube, and wherein in the surface of the emitter body on the side on which the emitter body is joined to the tube, a groove configured to connect an inner peripheral surface of the housing part and the side surface and to house the hinge part in a press-fit manner is formed. 2. The emitter according to claim 1 , wherein when the emitter is joined to the tube, the hinge part is connected to the emitter body at a side surface located on an upstream side or a downstream side in the emitter body in a direction in which in the irrigation liquid flows in the tube. 3. The emitter according to claim 1 , wherein the emitter body, the base seat and the hinge part are integrally molded in one piece. 4. The emitter according to claim 2 , wherein the emitter body, the base seat and the hinge part are integrally molded in one piece. 5. A drip irrigation tube comprising: a tube for delivering irrigation liquid, the tube including a discharging port communicating between inside and outside of the tube; and an emitter joined to an inner wall surface of the tube at a position corresponding to the discharging port, the emitter being configured to quantitatively discharge the irrigation liquid in the tube from the discharging port to the outside of the tube, wherein the emitter comprises: an emitter body; and a base seat configured to be housed in the emitter body, wherein the emitter body includes: an intake part configured to take in the irrigation liquid, a pressure reducing channel groove communicated with the intake part and configured to form a pressure reducing channel for carrying the irrigation liquid while depressurizing the irrigation liquid, a housing part communicated with the pressure reducing channel groove and configured to house the base seat, and a diaphragm part having flexibility and configured to approach the base seat when receiving a pressure of the irrigation liquid in the tube in a state where the base seat is housed in the housing part, wherein the base seat includes a through hole configured to discharge, toward the discharging port, the irrigation liquid carried into the housing part from the pressure reducing channel groove, wherein the emitter body and the base seat are connected to each other through a hinge part, wherein the housing part is open at a surface of the emitter body on a side on which the emitter body is joined to the tube, wherein the hinge part is connected to a side surface of the emitter body, the side surface being contiguous with the surface of the emitter body on the side on which the emitter body is joined to the tube, and wherein in the surface of the emitter body on the side on which the emitter body is joined to the tube, a groove configured to connect an inner peripheral surface of the housing part and the side surface and to house the hinge part in a press-fit manner is formed.