Silencer and ejector in which silencer is used

What is claimed is: 1. A silencer comprising: a hollow tubular portion in which a discharge flow passage is formed that communicates, on one end side of the tubular portion, with a discharge port of a fluid pressure device through which a pressure fluid is discharged; a cap member attached to another end part of the tubular portion; a sound absorbing member attached to an inner wall surface of the tubular portion; and a plurality of discharge ports adapted to discharge the pressure fluid, which has passed through the discharge flow passage in an axial direction of the tubular portion, in radial directions perpendicular to the axial direction, wherein: the plurality of discharge ports are provided in the cap member and are oriented toward and open in the radial directions, and the plurality of discharge ports are partitioned by a plurality of columnar bodies which are spaced equidistantly from each other in a circumferential direction of the cap member, and the discharge ports are directly connected to the discharge flow passage without being separated by the sound absorbing member. 2. The silencer according to claim 1 , wherein: the tubular portion includes a tubular partition wall that extends in the axial direction up to a vicinity of the cap member and partitions the discharge flow passage; and the discharge flow passage is constituted from: a first discharge flow passage, a starting end of which faces toward the discharge port, and which extends to the vicinity of the cap member along a wall surface on an inner side of the partition wall; a second discharge flow passage adapted to change a flow direction from a terminal end part of the first discharge flow passage toward an outer side in the radial direction, and which is folded back on an opposite side of the cap member in the axial direction along the inner wall surface of the cap member; and a third discharge flow passage that extends from a terminal end part of the second discharge flow passage to the one end side of the tubular portion along a wall surface on an outer side of the partition wall; wherein the plurality of discharge ports are formed in a terminal end part of the third discharge flow passage. 3. The silencer according to claim 1 , wherein a sound absorbing ring having an opening with a diameter greater than an inner diameter of the sound absorbing member is provided between the sound absorbing member and the cap member. 4. The silencer according to claim 1 , wherein: the tubular portion includes a clip attachment part formed in a groove shape on an outer circumferential surface thereof; and the clip attachment part engages a clip member that is inserted into a hole formed in the fluid pressure device. 5. The silencer according to claim 1 , wherein the tubular portion includes a male screw member which is screwed in and fixed with respect to a female screw member formed in the fluid pressure device. 6. A silencer comprising: a hollow tubular portion in which a discharge flow passage is formed that communicates, on one end side of the tubular portion, with a discharge port of a fluid pressure device through which a pressure fluid is discharged; a cap member attached to another end part of the tubular portion; a sound absorbing member attached to an inner wall surface of the tubular portion: and a plurality of discharge ports adapted to discharge the pressure fluid, which has passed through the discharge flow passage in an axial direction of the tubular portion, in radial directions perpendicular to the axial direction, wherein the tubular portion includes a tubular partition wall that extends in the axial direction up to a vicinity of the cap member and partitions the discharge flow passage; the discharge flow passage is constituted from: a first discharge flow passage, a starting end of which faces toward the discharge port, and which extends to the vicinity of the cap member along a wall surface on an inner side of the partition wall; a second discharge flow passage adapted to change a flow direction from a terminal end part of the first discharge flow passage toward an outer side in the radial direction, and which is folded back on an opposite side of the cap member in the axial direction along the inner wall surface of the cap member; and a third discharge flow passage that extends from a terminal end part of the second discharge flow passage to the one end side of the tubular portion along a wall surface on an outer side of the partition wall; wherein the plurality of discharge ports are formed in a terminal end part of the third discharge flow passage. wherein the sound absorbing member is constituted from: a first sound absorbing member disposed along the first discharge flow passage; a second sound absorbing member disposed along the second discharge flow passage and the third discharge flow passage; and a third sound absorbing member disposed in the terminal end part of the third discharge flow passage; and wherein the second sound absorbing member includes a curved portion at a location corresponding to the terminal end part of the second discharge flow passage. 7. An ejector comprising: an ejector body formed with an internal space communicating with an air supply port and a suction port; a nozzle disposed in the internal space, and adapted to inject a pressure fluid supplied from the air supply port, and generate a negative pressure for sucking fluid from the suction port; a diffuser provided in the internal space on a more downstream side than the nozzle, and having a discharge port adapted to discharge the pressure fluid together with the fluid; and a silencer facing toward the discharge port, and which is attached to the ejector body; wherein the silencer includes: a hollow tubular portion in which a discharge flow passage is formed that communicates, on one end side of the tubular portion, with the discharge port; a cap member attached to another end part of the tubular portion; a sound absorbing member attached to an inner wall surface of the tubular portion; and a plurality of discharge ports adapted to discharge the pressure fluid, which has passed through the discharge flow passage in an axial direction of the tubular portion, in radial directions perpendicular to the axial direction, the plurality of discharge ports are provided in the cap member and are oriented toward and open in the radial directions, and the plurality of discharge ports are partitioned by a plurality of columnar bodies which are spaced equidistantly from each other in a circumferential direction of the cap member, and the discharge ports are directly connected to the discharge flow passage without being separated by the sound absorbing member.