Die plate, resin machine, and method of heating nozzles of die plate

The invention claimed is: 1. A die plate comprising: a nozzle group including a plurality of nozzles that each discharge molten resin in an axial direction; and at least one heating medium guidance part that receives a heating medium, guides the heating medium, and heats the plurality of nozzles from outside, wherein the plurality of nozzles includes: a plurality of nozzle walls each extending in the axial direction and including an inner peripheral surface surrounding a resin channel that allows the molten resin to flow, and an outer peripheral surface arranged along the inner peripheral surface to surround the inner peripheral surface in a cross section orthogonal to the axial direction; and a plurality of discharge parts arranged at tips of the plurality of nozzle walls in the axial direction and each discharging the molten resin, and the at least one heating medium guidance part includes: at least one reception port that receives the heating medium; at least one discharge port that discharges the heating medium; and at least one guidance wall that defines a heating channel through which the heating medium flows together with the outer peripheral surface of each of the plurality of nozzle walls, the at least one guidance wall guiding the heating medium to cause the heating medium flowing in from the at least one reception port to come into contact with the outer peripheral surface of each of the plurality of nozzle walls in a flow direction of the heating medium crossing the axial direction, and then to be discharged from the at least one discharge port; wherein the plurality of nozzles includes a plurality of independent nozzles, and each respective one of the plurality of nozzle walls of the plurality of independent nozzles is arranged independently of each other inside the heating channel such that its outer peripheral surface is separate from the outer peripheral surface of adjacent ones of the plurality of independent nozzles, and the heating medium flows between the adjacent ones of the plurality of independent nozzles; and wherein the plurality of nozzles includes a plurality of connection nozzles, and a part of the outer peripheral surface of a first connection nozzle of the plurality of connection nozzles and a part of the outer peripheral surface of a second connection nozzle adjacent to the first connection nozzle are connected to each other in a connection direction crossing the axial direction. 2. The die plate according to claim 1 , wherein the at least one guidance wall includes a plurality of base walls spaced apart from each other in the axial direction, the heating channel is arranged between the plurality of base walls, and the plurality of nozzle walls connects the plurality of base walls to each other in the axial direction to isolate the resin channel from the heating channel. 3. The die plate according to claim 2 , wherein the at least one guidance wall includes at least one channel wall that defines the heating channel together with the plurality of base walls, and the at least one channel wall extends in the flow direction and connects the plurality of base walls to each other in the axial direction, and is arranged opposite the plurality of nozzle walls in a direction crossing the axial direction. 4. The die plate according to claim 3 , wherein the plurality of nozzles includes a plurality of parallel nozzles aligned in an alignment direction crossing the axial direction, and the at least one channel wall includes: an outward route guidance wall arranged opposite the plurality of parallel nozzles in a direction crossing the alignment direction and guiding the heating medium in a first flow direction with the plurality of parallel nozzles; and a return route guidance wall arranged on an opposite side of the outward route guidance wall with respect to the plurality of parallel nozzles and opposite the plurality of parallel nozzles, the return route guidance wall guiding the heating medium guided by the outward route guidance wall in a second flow direction opposite the first flow direction with the plurality of parallel nozzles. 5. The die plate according to claim 1 , wherein the at least one guidance wall includes at least one partition wall that connects the part of the outer peripheral surface of the first connection nozzle of the plurality of connection nozzles and the part of the outer peripheral surface of the second connection nozzle to each other, and the at least one partition wall defines the heating channel in the flow direction together with the outer peripheral surface of the first connection nozzle and the outer peripheral surface of the second connection nozzle. 6. The die plate according to claim 1 , wherein the part of the outer peripheral surface of the first connection nozzle of the plurality of connection nozzles and the part of the outer peripheral surface of the second connection nozzle are directly connected to each other. 7. The die plate according to claim 1 , wherein the at least one heating medium guidance part includes a first heating medium guidance part and a second heating medium guidance part each including the at least one reception port, the at least one discharge port, and the guidance wall, and defining the heating channel independent of each other, and the heating channel of the first heating medium guidance part is arranged at a different position in the axial direction from a position of the heating channel of the second heating medium guidance part. 8. The die plate according to claim 7 , wherein at least a part of the heating channel of the first heating medium guidance part is arranged to overlap the heating channel of the second heating medium guidance part in the axial direction. 9. The die plate according to claim 1 , wherein the nozzle group includes a first nozzle group and a second nozzle group mutually divided in the direction crossing the axial direction, the outer peripheral surface of each of the plurality of nozzle walls included in each of the first nozzle group and the second nozzle group includes a discharge side outer peripheral surface adjacent to one of the plurality of discharge parts in the axial direction, and an upstream side outer peripheral surface arranged at a position farther from the respective one of the plurality of discharge parts than the discharge side outer peripheral surface in the axial direction, the at least one heating medium guidance part includes a first heating medium guidance part and a second heating medium guidance part each including the at least one reception port, the at least one discharge port, and the guidance wall, and defining the heating channel independent of each other, the first heating medium guidance part includes: a first sub-guidance part that guides the heating medium to bring the heating medium into contact with the discharge side outer peripheral surface of each of the plurality of nozzle walls of the first nozzle group; a second sub-guidance part that guides the heating medium to bring the heating medium into contact with the upstream side outer peripheral surface of each of the plurality of nozzle walls of the second nozzle group; and a first communicating part that causes the first sub-guidance part and the second sub-guidance part to be in communication with each other, and the second heating medium guidance part includes: a third sub-guidance part that guides the heating medium to bring the heating medium into contact with the upstream side outer peripheral surface of each of the plurality of nozzle walls of the first nozzle group; a fourth sub-guidance part that guides the heating medium to bring the heating medium into contact with the discharge side outer perip