Swash plate pump having control pins in series

The invention claimed is: 1. A swash plate pump having a discharge capacity changeable according to a load pressure, the swash plate pump comprising: a plurality of pistons; a cylinder block including a plurality of cylinders for housing the pistons; a swash plate for reciprocating the pistons to expand and contract volume chambers of the cylinders with a rotation of the cylinder block; a biasing mechanism for biasing the swash plate in a direction to increase a tilting angle of the swash plate; a first control pin for driving the swash plate in a direction to reduce the tilting angle according to a first load pressure; a second control pin for driving the swash plate in a direction to reduce the tilting angle according to a second load pressure, the second control pin being connected with the first control pin in series; and a casing for housing the cylinder block, the pistons, the swash plate, the biasing mechanism and the first and second control pins, wherein the casing includes a pump housing in which a small-diameter hole into which the first control pin is slidably inserted and a large-diameter hole which is larger than the small-diameter hole and into which the second control pin is slidably inserted are formed on the same axis, and a pump cover provided with a bearing for tiltably supporting the swash plate, the pump cover being mounted on the pump housing; a first pressure chamber to which the first load pressure is introduced is defined between the first control pin and the small-diameter hole; a second pressure chamber to which the second load pressure is introduced is defined between the second control pin and the large-diameter hole; the small-diameter hole and the large-diameter hole are formed by machining from a side of the pump housing at which the pump cover is mounted before the pump cover is mounted on the pump housing; the first control pin and the second control pin are inserted into the small-diameter hole and the large-diameter hole, respectively, from the side of the pump housing at which the pump cover is mounted, before the pump cover is mounted on the pump housing; and the first pressure chamber is in fluid communication with a discharge pressure of a sub pump. 2. The swash plate pump according to claim 1 , wherein the biasing mechanism comprises a spring mechanism. 3. The swash plate pump according to claim 2 , further comprising: a first retainer mounted in the pump housing; and a second retainer attached to the swash plate, wherein the spring mechanism comprises: a first coiled tilt spring; and a second coiled tilt spring arranged inside the first tilt spring, wherein the first and second coiled tilt springs are interposed between the first retainer and the second retainer. 4. The swash plate pump according to claim 3 , wherein the first tilt spring has a first winding diameter, the second tile spring has a second winding diameter, and the second winding diameter is smaller than the first winding diameter. 5. The swash plate pump according to claim 1 , wherein the first pressure chamber communicates with the sub pump via a through hole formed in the pump housing. 6. The swash plate pump according to claim 5 , wherein the discharge pressure of the sub pump is introduced to the first pressure chamber via the through hole to move the first control pin. 7. A swash plate pump having a discharge capacity changeable according to a load pressure, the swash plate pump comprising: a plurality of pistons; a cylinder block including a plurality of cylinders for housing the pistons; a swash plate for reciprocating the pistons to expand and contract volume chambers of the cylinders with a rotation of the cylinder block; a biasing mechanism for biasing the swash plate in a direction to increase a tilting angle of the swash plate; a first control pin for driving the swash plate in a direction to reduce the tilting angle according to a first load pressure; a second control pin for driving the swash plate in a direction to reduce the tilting angle according to a second load pressure, the second control pin being connected with the first control pin in series; and a casing for housing the cylinder block, the pistons, the swash plate, the biasing mechanism and the first and second control pins, wherein the casing includes a pump housing in which a small-diameter hole into which the first control pin is slidably inserted and a large-diameter hole which is larger than the small-diameter hole and into which the second control pin is slidably inserted are formed on the same axis, and a pump cover provided with a bearing for tiltably supporting the swash plate, the pump cover being mounted on the pump housing; a first pressure chamber to which the first load pressure is introduced is defined between the first control pin and the small-diameter hole; a second pressure chamber to which the second load pressure is introduced is defined between the second control pin and the large-diameter hole; and the small-diameter hole and the large-diameter hole are formed by machining from a side of the pump housing at which the pump cover is mounted before the pump cover is mounted on the pump housing, and wherein: the pump housing includes a through hole that is open onto the large-diameter hole for introducing the second load pressure to the second pressure chamber; the second control pin includes a small-diameter part that faces the through hole and that is formed on an end part of the second control pin where the first control pin is connected to the second control pin; and an outer diameter of the small-diameter part is smaller than an outer diameter of another part of the second control pin, said another part continuous to the small-diameter part. 8. A swash plate pump having a discharge capacity changeable according to a load pressure, the swash plate pump comprising: a plurality of pistons; a cylinder block including a plurality of cylinders housing the pistons; a swash plate configured to reciprocate the pistons to expand and contract volume chambers of the cylinders with a rotation of the cylinder block; a spring biasing the swash plate in a direction to increase a tilting angle of the swash plate; a first control pin configured to drive the swash plate in a direction to reduce the tilting angle according to a first load pressure; a second control pin configured to drive the swash plate in a direction to reduce the tilting angle according to a second load pressure, the second control pin being connected with the first control pin in series; and a casing for housing therein the cylinder block, the pistons, the swash plate, the spring and the first and second control pins, wherein the casing includes a pump housing having a small-diameter hole and large-diameter hole, which is larger than the small-diameter hole, hole formed on a same axis, the first control pin slidably inserted into the small-diameter hole, the second control pin slidably inserted into the large-diameter hole, and a pump cover provided with a bearing tiltably supporting the swash plate, the pump cover being mounted on the pump housing; a first pressure chamber for receiving the first load pressure is defined between the first control pin and the small-diameter hole; a second pressure chamber for receiving the second load pressure is defined between the second control pin and the large-diameter hole; along the axis on which the small-diameter hole and the large-diameter hole are formed, the large-diameter hole is arranged between the small-diameter hole and the swash plate, and the swash plate is arranged between the large-diameter hole and the pump cover; the first control pin and the second control pin