Waveguide bend formed in a metal block and coupled to a board unit to form a wireless device

What is claimed is: 1. A waveguide bend comprising: a metal block forming at least a part of a housing which accommodates a board unit, the board unit comprising a circuit configured to supply a radio wave to the waveguide bend, the metal block comprising a mounting surface, a first waveguide, a second waveguide, and a third waveguide, and the mounting surface, the first waveguide, the second waveguide, and the third waveguide being integrally formed, wherein: the mounting surface is configured to support the board unit that is mounted on the mounting surface, the second waveguide comprises a first straight portion, a second straight portion, and a bend, the second straight portion extends in a direction different from the first straight portion, the bend is provided between the first straight portion and the second straight portion and changes a propagation direction of the radio wave, and an opening size of the second waveguide is smaller than an opening size of the first waveguide, the third waveguide is provided between the first waveguide and the second straight portion of the second waveguide, and an opening size of the third waveguide is smaller than the opening size of the first waveguide and is larger than the opening size of the second waveguide, the first waveguide, the third waveguide, and the second straight portion of the second waveguide extend in a direction substantially perpendicular to the mounting surface and are arranged in a straight line in this order in the metal block, an internal space of the second waveguide has a substantially rectangular sectional shape in a cross section in a direction which is substantially perpendicular to the propagation direction of the radio wave, and in a case where: a frequency which is lower than a passband set to the waveguide bend is f; a width of the sectional shape of the internal space of the second waveguide in a longitudinal direction of the sectional shape is A; and light speed is c, the following relational expression is satisfied f<c/ 2 A. 2. The waveguide bend according to claim 1 , wherein: the metal block comprises a pair of first waveguides and a pair of third waveguides, the pair of first waveguides includes the first waveguide, and the pair of third waveguides includes the third waveguide, each of the pair of first waveguides is provided at a respective one of ends of the second waveguide in the propagation direction of the radio wave, and each of the pair of third waveguides is provided at a respective one of the ends of the second waveguide in the propagation direction of the radio wave. 3. The waveguide bend according to claim 1 , wherein the metal block comprises a fourth waveguide between the first waveguide and the third waveguide, an opening size of the fourth waveguide is smaller than the opening size of the first waveguide and is larger than the opening size of the third waveguide. 4. The waveguide bend according to claim 1 , wherein the first waveguide, the third waveguide, and the second straight portion of the second waveguide are formed by cutting the first waveguide, the third waveguide, and the second straight portion of the second waveguide out of one metal block as the metal block. 5. The waveguide bend according to claim 1 , wherein in a case where: a guide-wavelength in the third waveguide, which is a guide-wavelength of a radio wave having a minimum frequency in a passband set to the waveguide bend, is λg; and a length of the third waveguide in the propagation direction of the radio wave is L, the following relational expression is satisfied 0 < L < λ g 2 . 6. The waveguide bend according to claim 1 , wherein: the sectional shape of the internal space of the second waveguide includes a rounded corner, an internal space of the third waveguide has a substantially rectangular sectional shape in a cross section in the direction which is substantially perpendicular to the propagation direction of the radio wave, and the sectional shape of the internal space of the third waveguide includes a rounded corner, and a radius of curvature of the rounded corner of the internal space of the third waveguide is smaller than a radius of curvature of the rounded corner of the internal space of the second waveguide. 7. The waveguide bend according to claim 1 , wherein the metal block is one metal block and is not formed from a plurality of combined metal blocks. 8. The waveguide bend according to claim 7 , wherein the first waveguide, the third waveguide, and the second straight portion of the second waveguide are formed by cutting the first waveguide, the third waveguide, and the second straight portion of the second waveguide out of the one metal block. 9. A wireless device comprising: a waveguide bend comprising a metal block, the metal block forming at least a part of a housing and comprising a mounting surface, a first waveguide, a second waveguide, and a third waveguide, and the mounting surface, the first waveguide, the second waveguide, and the third waveguide being integrally formed; and a board unit provided in the housing, the board unit being mounted on the mounting surface, and the board unit comprising a circuit configured to supply a radio wave to the waveguide bend, wherein: the second waveguide comprises a first straight portion, a second straight portion, and a bend, the second straight portion extends in a direction different from the first straight portion, the bend is provided between the first straight portion and the second straight portion and changes a propagation direction of the radio wave, and an opening size of the second waveguide is smaller than an opening size of the first waveguide, the third waveguide is provided between the first waveguide and the second straight portion of the second waveguide, and an opening size of the third waveguide is smaller than the opening size of the first waveguide and is larger than the opening size of the second waveguide, the first waveguide, the third waveguide, and the second straight portion of the second waveguide extend in a direction substantially perpendicular to the mounting surface and are arranged in a straight line in this order in the metal block, an internal space of the second waveguide has a substantially rectangular sectional shape in a cross section in a direction which is substantially perpendicular to the propagation direction of the radio wave, and in a case where: a frequency which is lower than a passband set to the waveguide bend is f; a width of the sectional shape of the internal space of the second waveguide in a longitudinal direction of the sectional shape is A; and light speed is c, the following relational expression is satisfied f<c/ 2 A. 10. The wireless device according to claim 9 , wherein the metal block comprises a fourth waveguide between the first waveguide and the third waveguide, an opening size of the fourth waveguide is smaller than the opening size of the first waveguide and is larger than the opening size of the third waveguide. 11. The wireless device according to claim 9 wherein: the metal block comprises a pair of first waveguides and a pair of third waveguides, the pair of first waveguides includes the first waveguide, and the pair of third waveguides includes the third waveguide, each of the pair of first waveguides is provided at