Emitter and drip irrigation tube

The invention claimed is: 1. An emitter for quantitatively discharging irrigation liquid in a tube from a discharge port communicating between an inside and an outside of the tube, the emitter being configured to be joined to an inner wall surface of the tube configured to distribute the irrigation liquid at a position corresponding to the discharge port, the emitter comprising: a water collecting part for receiving the irrigation liquid in the tube; a pressure reduction channel for allowing the irrigation liquid received from the water collecting part to flow therethrough while reducing a pressure of the irrigation liquid; a flow rate control part for controlling a flow rate of the irrigation liquid supplied from the pressure reduction channel in accordance with the pressure of the irrigation liquid in the tube; and a discharge part to which the irrigation liquid, having a flow rate controlled by the flow rate control part, is supplied, the discharge part being configured to face the discharge port, wherein: the water collecting part opens at a first surface which is not joined to the tube in the emitter, the flow rate control part includes: an opening part which opens at the first surface, a film having flexibility and sealing the opening part to block a communication of a channel on a downstream side relative to the pressure reduction channel and the inside of the tube, the film being disposed such that the film forms an exterior surface of the emitter, the exterior surface facing the inside of the tube, a recessed surface part depressed with respect to the film, capable of making contact with the film, and disposed at a position where the recessed surface part faces the film in the channel on a downstream side relative to the pressure reduction channel without making contact with the film, a hole opening at the recessed surface part and communicated with the discharge part, and a groove formed on the recessed surface part and configured to communicate between the hole and the channel on an outside relative to the recessed surface part, the film makes contact with the recessed surface part when the pressure of the irrigation liquid in the tube is equal to or higher than a predetermined value, and the groove communicates between the hole and the channel on the outside relative to the recessed surface part when the film makes contact with the recessed surface part. 2. The emitter according to claim 1 , wherein: an entirety of the emitter is integrally molded with one material having the flexibility. 3. The emitter according to claim 2 , wherein the water collecting part includes a flow rate adjustment valve configured to expand a channel of the irrigation liquid when the pressure of the irrigation liquid in the tube is equal to or higher than a predetermined value. 4. The emitter according to claim 1 , wherein the water collecting part includes a flow rate adjustment valve configured to expand a channel of the irrigation liquid when the pressure of the irrigation liquid in the tube is equal to or higher than a predetermined value. 5. A trickle irrigation tube comprising: a tube configured to distribute irrigation liquid, the tube including a discharge port communicating between an inside and an outside of the tube; and an emitter for quantitatively discharging irrigation liquid in the tube from the discharge port, the emitter being configured to be joined to an inner wall surface of the tube at a position corresponding to the discharge port, wherein: the emitter comprises: a water collecting part for receiving the irrigation liquid in the tube, a pressure reduction channel for allowing the irrigation liquid received from the water collecting part to flow therethrough while reducing a pressure of the irrigation liquid, a flow rate control part for controlling a flow rate of the irrigation liquid supplied from the pressure reduction channel in accordance with the pressure of the irrigation liquid in the tube, and a discharge part to which the irrigation liquid, having a flow rate controlled by the flow rate control part, is supplied, the discharge part being configured to face the discharge port, the water collecting part opens at a first surface which is not joined to the tube in the emitter, the flow rate control part includes: an opening part which opens at the first surface, a film having flexibility and sealing the opening part to block a communication of a channel on a downstream side relative to the pressure reduction channel and the inside of the tube, the film being disposed such that the film forms an exterior surface of the emitter, the exterior surface facing the inside of the tube, a recessed surface part depressed with respect to the film, capable of making contact with the film, and disposed at a position where the recessed surface part faces the film in the channel on a downstream side relative to the pressure reduction channel without making contact with the film, a hole opening at the recessed surface part and communicated with the discharge part, and a groove formed on the recessed surface part and configured to communicate between the hole and the channel on an outside relative to the recessed surface part, the film makes contact with the recessed surface part when the pressure of the irrigation liquid in the tube is equal to or higher than a predetermined value, and the groove communicates between the hole and the channel on the outside relative to the recessed surface part when the film makes contact with the recessed surface part.