Battery module

What is claimed is: 1 . A battery module comprising: a plurality of assembled batteries each of which having a plurality of battery cells having an electrode forming surface of a metal case along which a negative electrode terminal and a positive electrode terminal are arranged with an interval in a width direction, a battery case that houses the plurality of the battery cells to be arranged in a length direction intersecting the width direction along the electrode forming surface, a first terminal connection portion that electrically connects the negative electrode terminal of one of the battery cells adjacent to each other to the positive electrode terminal of the adjacent battery cell in the length direction, and a second terminal connection portion that electrically connects the positive electrode terminal of one of the battery cells adjacent to each other to the negative electrode terminal of the adjacent battery cell in the length direction, the second terminal connection portion being separated from the first terminal connection portion in the width direction; a plurality of individual detection units configured to individually detect a physical quantity of each of the plurality of assembled batteries; a plurality of individual communication units configured to output a detection result of each of the plurality of individual detection units as a wireless signal; a monitoring unit configured to wirelessly communicate with each of the plurality of individual communication units; and an electromagnetic reflection housing having a storage space to store the plurality of assembled batteries, the plurality of individual detection units, the plurality of individual communication units, and the monitoring unit, wherein the individual communication unit is provided in a waveguide path defined between the first terminal connection portion and the second terminal connection portion in the width direction and defined between the electrode forming surface and a facing surface of the electromagnetic reflection housing that faces the electrode forming surface in a height direction orthogonal to the electrode forming surface. 2 . The battery module according to claim 1 , wherein a shortest length of the waveguide path in one of the width direction and the height direction is longer than half of a wavelength of the wireless signal and shorter than the wavelength of the wireless signal, and a shortest length of the waveguide path in the other of the width direction and the height direction is shorter than the shortest length of the waveguide path in the one of the width direction and the height direction. 3 . The battery module according to claim 2 , wherein the shortest length of the waveguide path in the width direction is longer than half of the wavelength and shorter than the wavelength, and the shortest length of the waveguide path in the height direction is shorter than the shortest length of the waveguide path in the width direction, and each of a first longest separation distance between the first terminal connection portion and the facing surface and a second longest separation distance between the second terminal connection portion and the facing surface is shorter than half of the wavelength. 4 . The battery module according to claim 3 , wherein a portion of the facing surface facing the first terminal connection portion and the second terminal connection portion in the height direction is located adjacent to the battery cell in the height direction than the other of the facing surface. 5 . The battery module according to claim 3 , wherein the individual communication unit is located adjacent to the facing surface in waveguide path in the height direction. 6 . The battery module according to claim 3 , wherein the individual communication unit is arranged on a wiring board, and the wiring board is arranged in the waveguide path between the first terminal connection portion and the second terminal connection portion, and the electrode forming surface in the height direction. 7 . The battery module according to claim 2 , further comprising: a waveguide tube having a common waveguide path that houses the monitoring unit, wherein a shortest separation distance between partition surfaces that define the common waveguide path in a third direction orthogonal to an extending direction of the common waveguide path is longer than half of the wavelength and shorter than the wavelength, and a shortest separation distance between partition surfaces in a fourth direction orthogonal to each of the extending direction and the third direction is shorter than the shortest separation distance in the fourth direction. 8 . The battery module according to claim 7 , wherein the waveguide tube is located in contact with the electromagnetic reflection housing. 9 . The battery module according to claim 1 , wherein the individual communication unit and the monitoring unit are located at positions different from each other in the height direction. 10 . The battery module according to claim 1 , wherein the plurality of individual communication units are arranged in the length direction. 11 . The battery module according to claim 1 , wherein the individual communication unit is located at a position different from the negative electrode terminal and the positive electrode terminal in the width direction. 12 . A battery module comprising: a plurality of assembled batteries; a plurality of individual detection units configured to individually detect a physical quantity of each of the plurality of assembled batteries; a plurality of individual communication units configured to output a detection result of each of the plurality of individual detection units as a wireless signal; a monitoring unit configured to wirelessly communicate with each of the plurality of individual communication units; an electromagnetic reflection housing having a storage space to store the plurality of assembled batteries, the plurality of individual detection units, the plurality of individual communication units, and the monitoring unit; and a plurality of individual waveguide tubes, each of which includes a waveguide path that houses a respective individual communication unit, wherein a shortest separation distance between inner wall surfaces that define the waveguide path in a first direction orthogonal to an extension direction of the waveguide path is longer than half of a wavelength of the wireless signal and shorter than the wavelength, and a shortest separation distance between inner wall surfaces in a second direction orthogonal to each of the extension direction and the first direction is shorter than the shortest separation distance in the first direction.