Coupling comprising a guide member embedded within a blind via of a post-wall waveguide and extending into a hollow tube waveguide

The invention claimed is: 1. A transmission line, comprising: a post-wall waveguide which comprises a dielectric substrate on which a pair of post-walls is formed and a first conductor layer and a second conductor layer opposed to each other with the dielectric substrate interposed therebetween, and in which a region surrounded by the pair of post-walls, the first conductor layer, and the second conductor layer is a waveguide region, a waveguide tube having a hollow rectangular shape and having a bottom wall including an opening portion formed therein, the waveguide tube being connected with the first conductor layer so as to cover the opening portion by the first conductor layer, and in which an inside of the waveguide tube communicates with the waveguide region through an opening formed in the first conductor layer, a blind via formed in the dielectric substrate such that one end is disposed inside the opening, and a guide member comprising a post member connected to the one end of the blind via and a support member supporting the post member, the guide member being disposed in the waveguide tube such that the post member is coaxial with the blind via, wherein the support member has a rectangular parallelepiped shape in which a length in a direction perpendicular to an axial direction of the waveguide tube is shorter than a length in the axial direction of the waveguide tube. 2. A transmission line, comprising: a post-wall waveguide which comprises a dielectric substrate on which a pair of post-walls is formed and a first conductor layer and a second conductor layer opposed to each other with the dielectric substrate interposed therebetween, and in which a region surrounded by the pair of post-walls, the first conductor layer, and the second conductor layer is a waveguide region, a waveguide tube having a hollow rectangular shape and having a bottom wall including an opening portion formed therein, the waveguide tube being connected with the first conductor layer so as to cover the opening portion by the first conductor layer, and in which an inside of the waveguide tube communicates with the waveguide region through an opening formed in the first conductor layer, a blind via formed in the dielectric substrate such that one end is disposed inside the opening, and a guide member comprising a post member connected to the one end of the blind via and a support member supporting the post member, the guide member being disposed in the waveguide tube such that the post member is coaxial with the blind via; wherein the blind via and the post member are connected by a conductive connection member. 3. The transmission line according to claim 2 , wherein: at the one end of the blind via, a first land having a larger diameter than the blind via and on which the conductive connecting member is disposed is formed; and at one end disposed on the blind via side of the post member, a second land having a larger diameter than the post member and on which the conductive connecting member is disposed is formed. 4. The transmission line according to claim 2 , wherein the conductive connecting member is a spherical member having a solder layer formed on a surface of the spherical member. 5. The transmission line according to claim 2 , wherein the blind via is formed along an inner wall of a hole formed from the one end to a portion of the dielectric substrate and has a cylindrical shape having a closed longitudinal end. 6. The transmission line according to claim 2 , comprising a plurality of bumps supporting the support member at a plurality of positions on the first conductor layer. 7. The transmission line according to claim 2 , wherein the support member has a rectangular parallelepiped shape in which a length in a direction perpendicular to an axial direction of the waveguide tube is shorter than a length in the axial direction of the waveguide tube. 8. The transmission line according to claim 2 , wherein an axial direction of the waveguide tube is in the same direction as a signal propagation direction of the waveguide region of the post-wall waveguide. 9. The transmission line according to claim 2 , wherein the pair of post walls each includes a post protrusion portion protruding toward the waveguide region. 10. The transmission line according to claim 9 , wherein each of the post walls comprises a plurality of conductor posts arranged at intervals, and the post protrusions are formed by a portion of conductor posts of the plurality of conductor posts displaced toward the waveguide region. 11. The transmission line according to claim 9 , wherein each of the post walls comprises a plurality of conductor posts arranged at intervals, and the post protrusions are formed by other conductor posts disposed adjacent to the plurality of conductor posts at intervals different from the intervals of the plurality of conductor posts. 12. The transmission line according to claim 9 , wherein the waveguide region is formed to extend in a predetermined direction, and the post protrusion portions on the pair of post walls are arranged at equivalent positions in the predetermined direction. 13. The transmission line according to claim 12 , wherein a distance from an end of the waveguide region in the predetermined direction to the post protrusion portion is set based on a wavelength of a signal transmitted through the transmission line. 14. A transmission line, comprising: a post-wall waveguide which comprises a dielectric substrate on which a pair of post-walls is formed and a first conductor layer and a second conductor layer opposed to each other with the dielectric substrate interposed therebetween, and in which a region surrounded by the pair of post-walls, the first conductor layer, and the second conductor layer is a waveguide region, a waveguide tube having a hollow rectangular shape and having a bottom wall including an opening portion formed therein, the waveguide tube being connected with the first conductor layer so as to cover the opening portion by the first conductor layer, and in which an inside of the waveguide tube communicates with the waveguide region through an opening formed in the first conductor layer, a blind via formed in the dielectric substrate such that one end is disposed inside the opening, a guide member comprising a post member connected to the one end of the blind via and a support member supporting the post member, the guide member being disposed in the waveguide tube such that the post member is coaxial with the blind via, and a plurality of bumps supporting the support member at a plurality of positions on the first conductor layer.