Reciprocating pump and oxygen concentrator

What is claimed is: 1. A reciprocating pump comprising: a motor including a motor shaft; four cylinders disposed at positions offset 90 degrees from each other about the motor shaft, the cylinders having cylinder shaft directions perpendicular to a motor shaft direction; four pistons disposed in the cylinders, respectively, the pistons being configured to be reciprocated by the motor shaft; a casing accommodating the motor shaft; and eight ducts including four intake ducts and four exhaust ducts, gas being introduced into the four cylinders through the four intake ducts and gas being discharged from the four cylinders through the four exhaust ducts, and the eight ducts being disposed in a region surrounded by the four cylinders when viewed along the motor shaft direction, the eight ducts being arranged in four pairs with each pair of two of the eight ducts being disposed between the cylinders adjacent to each other about the motor shaft, the four pairs of two ducts disposed between the cylinders adjacent to each other about the motor shaft extending along the motor shaft direction, each of the eight ducts including a first duct that extends onto a side of the motor shaft from an outside of the region surrounded by the four cylinders when viewed along the motor shaft direction, and each of at least four ducts of the eight ducts including a second duct extending along the motor shaft direction. 2. The reciprocating puny according to claim 1 , wherein the first ducts and the second ducts are formed in the casing. 3. The reciprocating pump according to claim 1 , further comprising two integrated ducts disposed in the region surrounded by the four cylinders when viewed along the motor shaft direction, the integrated ducts integrating the ducts communicating with the cylinders. 4. The reciprocating pump according to claim 3 , wherein the two integrated ducts extend along the motor shaft direction. 5. The reciprocating pump according to claim 3 , wherein each of the integrated ducts is formed into an annular shape concentric with the motor shaft. 6. The reciprocating pump according to claim 1 , wherein at least one cylinder out of the four cylinders is used in compression, and a remainder of the four cylinders is used in decompression. 7. The reciprocating pump according to claim 1 , wherein all the four cylinders are used in compression or decompression, and two or three cylinders of the four cylinders are equal to one another in pressure level, and are different from a remainder of the four cylinders in pressure level. 8. The reciprocating pump according to claim 1 , wherein two of the four cylinders are used in compression or decompression at an equal pressure level, and two of the four pistons disposed in the two cylinders are reciprocated in phases that are offset 180 degrees from each other. 9. The reciprocating pump according to claim 1 , wherein two of the four cylinders are disposed to oppose each other and are used in compression or decompression at an equal pressure level. 10. The reciprocating pump according to claim 1 , wherein a first duct of the exhaust ducts connected to a decompressing cylinder communicates with an inside of the casing. 11. The reciprocating pump according to claim 1 , wherein the two second ducts communicating with the two cylinders disposed in positions offset 90 degrees from each other are connected to each other while extending along the motor shaft direction. 12. An oxygen concentrator including the reciprocating pump according to claim 1 , the oxygen concentrator further comprising: an adsorption unit with an adsorbent enclosed therein, the adsorbent being configured to absorb and desorb nitrogen according to a pressure, the adsorption unit being configured to generate an oxygen concentrated gas by adsorbing the nitrogen in supplied air to the adsorbent, the reciprocating pump being configured to perform at least one of supply of compressed air to the adsorption unit and decompression in the adsorption unit.