Diluter, analysis system, and analysis method

The invention claimed is: 1 . A diluter comprising: an inflow portion configured to allow the sample gas containing particulate matter to flow in; a mixing portion having an inner diameter larger than that of the inflow portion, configured to mix the sample gas flowing in from the inflow portion with a dilution gas in an internal space, to generate a diluted sample gas; a discharge portion configured to discharge the diluted sample gas; a connection portion configured to connect the inflow portion and the mixing portion, and having a first tapered part whose inner diameter increases from a side connected to the inflow portion toward a side connected to the mixing portion; and an introduction portion configured to introduce the dilution gas into the internal space from a position downstream of the connection between the first tapered part and the inflow portion, wherein the introduction portion has a plurality of introduction ports arranged along an inflow direction of the sample gas in a side wall of the mixing portion, and wherein the introduction ports are inclined downstream relative to the inflow direction of the sample gas to the internal space, and introduces the dilution gas into a downstream side of the internal space. 2 . The diluter according to claim 1 , wherein the introduction portion introduces the dilution gas into the internal space in a direction diagonal to an inflow direction of the sample gas into the internal space. 3 . The diluter according to claim 1 , wherein the introduction portion introduces the dilution gas into the internal space in a direction perpendicular to an inflow direction of the sample gas into the internal space. 4 . The diluter according to claim 1 , wherein one of the plurality of introduction ports is disposed at a position point-symmetric to another one of the plurality of introduction ports with respect to the center of a cross section of the mixing portion. 5 . The diluter according to claim 4 , wherein the introduction portion has a dilution gas filling space that is communicated to the internal space of the mixing portion through the plurality of introduction ports and is filled with the dilution gas. 6 . The diluter according to claim 1 , wherein the introduction portion is provided with a plurality of introduction tubes each of which has one end connected to a position downstream of the connection between the first tapered part and the inflow portion, and the other end that allows the dilution gas to flow in, and one of the plurality of introduction tubes is disposed at a position point-symmetric to another one of the plurality of the plurality of introduction tubes with respect to the center of a cross section of the first tapered part. 7 . The diluter according to claim 1 , wherein the mixing portion includes a second tapered part whose inner diameter decreases from an upstream side to a downstream side, and a third tapered part whose inner diameter increases from a side of the second tapered part toward the downstream side. 8 . The diluter according to claim 1 , further comprising a sampling portion configured to sample the diluted sample gas from the internal space. 9 . The diluter according to claim 8 , wherein the sampling portion is disposed on an upstream side of the discharge portion. 10 . The diluter according to claim 8 , wherein a ratio between a cross-sectional area of the sampling portion and that of the internal space at a position where the sampling portion is disposed is determined such that a flow velocity of the diluted sample gas in the sampling portion is more than that in the internal space. 11 . The diluter according to claim 1 , further comprising a vibration portion configured to vibrate the mixing portion. 12 . The diluter according to claim 1 , further comprising a heating portion configured to heat the mixing portion, the connection portion, and the introduction portion. 13 . An analysis system comprising: a diluter configured to mix a sample gas containing particulate matter with a dilution gas to generate a diluted sample gas; and an analyzing unit configured to analyze the particulate matter contained in the diluted sample gas, wherein the diluter includes: an inflow portion configured to allow the sample gas containing particulate matter to flow in; a mixing portion having an inner diameter larger than that of the inflow portion, configured to mix the sample gas flowing in from the inflow portion with a dilution gas in an internal space to generate a diluted sample gas; a discharge portion configured to discharge the diluted sample gas; a connection portion configured to connect the inflow portion and the mixing portion, and having a first tapered part whose inner diameter increases from a side connected to the inflow portion toward a side connected to the mixing portion; and an introduction portion configured to introduce the dilution gas into the internal space from a position downstream of the connection between the first tapered part and the inflow portion, wherein the introduction portion has a plurality of introduction ports arranged along an inflow direction of the sample gas in a side wall of the mixing portion, and wherein the introduction ports are inclined downstream relative to the inflow direction of the sample gas to the internal space, and introduces the dilution gas into a downstream side of the internal space. 14 . The analysis system according to claim 13 , further comprising a collection unit configured to sample the diluted sample gas and collect the particulate matter contained in the sampled diluted sample gas to a collection filter. 15 . The analysis system according to claim 13 , wherein the analyzing unit includes a collected amount measuring unit configured to measure a collected amount of the particulate matter. 16 . The analysis system according to claim 13 , wherein the analyzing unit includes a component analyzing unit configured to analyze components contained in the particulate matter. 17 . The analysis system according to claim 13 , wherein the analyzing unit includes a counting unit configured to count the number of the particulate matter. 18 . An analysis method using an analysis system comprising: a diluter including an inflow portion, a mixing portion having an inner diameter larger than that of the inflow portion, a discharge portion, a connection portion configured to connect the inflow portion and the mixing portion and having a first tapered part whose inner diameter increases from a side connected to the inflow portion toward a side connected to the mixing portion, an introduction portion configured to introduce a dilution gas from a position downstream of the connection between the first tapered part and the inflow portion, wherein the introduction portion has a plurality of introduction ports arranged along an inflow direction of the sample gas in a side wall of the mixing portion, and wherein the introduction ports are inclined downstream relative to the inflow direction of the sample gas to the internal space, and introduces the dilution gas into a downstream side of the internal space; and an analyzing unit, the method comprising: mixing a sample gas containing particulate matter flowing in from the inflow portion with the dilution gas introduced from the introduction portion, in the internal space of the mixing portion to generate a diluted sample gas; and analyzing the particulate matter contained in the diluted sample gas using the analyzing unit.