Lighting device and flexible substrate connecting light emitting portion thereof

What is claimed is: 1. A lighting device comprising: a main body portion; a light emitting portion movable relative to the main body portion; a light emission control portion provided in the main body portion; and a flexible substrate configured to electrically connect the light emitting portion and the light emission control portion, wherein the light emitting portion comprises a xenon tube and a light emission control coil, wherein the flexible substrate comprises (a) a soldering portion that is soldered to the light emitting portion at one end, (b) a connection portion that is connected to the light emission control portion at another end, (c) a communication portion that connects the soldering portion and the connection portion, and (d) four wires that are arranged in the communication portion in a longitudinal direction, wherein the light emitting portion comprises (a) two xenon terminals that are connected to respective ends of the xenon tube, and (b) two light emission control terminals that are connected to the light emission control coil, wherein the four wires are electrically connected by soldering to different terminals of the two xenon terminals and the two light emission control terminals in the soldering portion, wherein, in the soldering portion, two first areas respectively soldered to the two light emission control terminals are arranged between two second areas respectively soldered to the two xenon terminals, when viewed from a short-side direction of the communication portion, and wherein, in the communication portion, of the four wires, two second wires respectively electrically connected to different terminals of the two xenon terminals are arranged between, of the four wires, two first wires respectively electrically connected to different terminals of the two light emission control terminals. 2. The lighting device according to claim 1 , wherein the communication portion is a portion that deforms in a process in which the light emitting portion moves relative to the main body portion. 3. The lighting device according to claim 1 , wherein a plate-like reinforcement member is attached to the soldering portion, and wherein the two second wires are arranged between the two first wires at a boundary of the reinforcement member facing the communication portion. 4. The lighting device according to claim 1 , wherein a magnitude of a current flowing through the two first wires is smaller than a magnitude of a current flowing through the two second wires. 5. The lighting device according to claim 1 , wherein a width of the two first wires is smaller than a width of the two second wires. 6. The lighting device according to claim 1 , wherein the two light emission control terminals are arranged in a region between the two xenon terminals when viewed from the short-side direction of the communication portion. 7. The lighting device according to claim 1 , wherein the light emission control coil is arranged in a region between both ends of the xenon tube when viewed from the short-side direction of the communication portion, and wherein the two xenon terminals are arranged in a region between the two light emission control terminals. 8. A lighting device comprising: a main body portion; a light emitting portion movable relative to the main body portion; a light emission control portion provided in the main body portion; and a flexible substrate configured to electrically connect the light emitting portion and the light emission control portion, wherein the flexible substrate comprises (a) a soldering portion that is soldered to the light emitting portion at one end, (b) a connection portion that is connected to the light emission control portion at another end, (c) a communication portion that connects the soldering portion and the connection portion and around which an insulating tape is wound in a short-side direction, and (d) a bending portion that bends when the light emitting portion moves relative to the main body portion, wherein the insulating tape comprises an extension portion that extends to the soldering portion when being wound around the communication portion, wherein the extension portion of the insulating tape is attached to the bending portion, and wherein the insulating tape further comprises another extension portion that extends to the soldering portion, wherein the extension portion and the another extension portion are formed in the insulating tape in independent convex shapes, and wherein the extension portion and the another extension portion are sequentially attached to one surface of front and back sides of the flexible substrate in the bending portion. 9. The lighting device according to claim 8 , wherein an unfolded shape of the insulating tape is formed by a square shape for covering the communication portion and the extension portion having a convex shape extending from one side of the square shape. 10. The lighting device according to claim 8 , wherein extension amounts of the extension portion and the another extension portion to the soldering portion are reduced stepwise in an order in which the extension portion and the another extension portion are attached to the flexible substrate. 11. The lighting device according to claim 8 , wherein at least one of the extension portion and the another extension portion has a cutout portion at a corner of the convex shape, and wherein the cutout portion is shaped in such a manner as to avoid a connection shape that continuously connects the soldering portion and the communication portion on a locus of assembly when the insulating tape is wound around the communication portion. 12. A flexible substrate comprising: a soldering portion that is soldered to a light emitting portion at one end; a connection portion that is connected to a light emission control portion at another end; a communication portion that connects the soldering portion and the connection portion; and four wires that are arranged in the communication portion in a longitudinal direction, wherein the four wires are electrically connected by soldering to different terminals of two xenon terminals and two light emission control terminals in the soldering portion, wherein, in the soldering portion, two first areas respectively soldered to the two light emission control terminals in the light emitting portion are arranged between two second areas respectively soldered to the two xenon terminals in the light emitting portion, when viewed from a short-side direction of the communication portion, and wherein, in the communication portion, of the four wires, two second wires respectively electrically connected to different terminals of the two xenon terminals are arranged between, of the four wires, two first wires respectively electrically connected to different terminals of the two light emission control terminals. 13. A flexible substrate comprising: a soldering portion that is soldered to a light emitting portion at one end; a connection portion that is connected to a light emission control portion at another end; a communication portion that connects the soldering portion and the connection portion and around which an insulating tape is wound in a short-side direction thereof; and a bending portion that bends when the light emitting portion moves relative to the light emission control portion, wherein the insulating tape comprises an extension portion that extends to the soldering portion when being wound around the communication portion, wherein the extension portion of the insulating tape is attached to the bending portion, and wherein the insulating tape further com