Method of manufacturing centrifugal pump

What is claimed is: 1. A method of manufacturing a centrifugal pump, wherein the centrifugal pump includes a housing to defining a hollow body cavity as a pumping chamber, a blood inlet port, a blood outlet port, a centrifugal force applying member rotatably accommodated in the pumping chamber, and a support mechanism that supports the centrifugal force applying member including a shaft member installed at a rotational center axis of the centrifugal force applying member, a first bearing rotatably supporting one end portion of the shaft member, and a second bearing rotatably supporting the other end portion of the shaft member, wherein the housing includes a lid member in which the first bearing is installed and a bottom member in which the second bearing is installed, and wherein the lid member and the bottom member are comprised of a resin material having a flexibility such that the housing is expandable in response to pressurized blood in the hollow body cavity, the method comprising the steps of: arranging the housing, force applying member, and support mechanism along the rotational center axis into a preliminary assembly state; compressing the lid member and the bottom member along respective outer circumferential walls, wherein the housing is warped by compressing the lid member and bottom member against the shaft member such that an interface between the outer circumferential walls is increased by a predetermined distance after the first and second bearings are in contact with the shaft member; and joining the lid member and the bottom member by affixing the outer circumferential walls at the interface during the compression. 2. The method of manufacturing a centrifugal pump according to claim 1 wherein when a separation distance between the first bearing and the second bearing after the assembling step is a separation distance Do, wherein the predetermined distance of increasing the outer wall interface corresponds to an unhindered separation distance D 1 between the first bearing and the second bearing that would otherwise result without resistance from the shaft member, and wherein the separation distance D 1 is equal to or less than 99% of the separation distance D 0 . 3. The method of manufacturing a centrifugal pump according to claim 2 : wherein the separation distance D 1 is in a range from 97% to 99% of the separation distance D 0 . 4. The method of manufacturing a centrifugal pump according to claim 2 : wherein each outer circumferential wall includes a deformable portion in which the lid member and the bottom member are individually deformed along the interface in response to the compression; wherein the deformation is frozen by the joining step; and wherein the unhindered separation distance D 1 is adjusted according to an extent of deformation of the deformable portion. 5. The method of manufacturing a centrifugal pump according to claim 1 : wherein affixing the outer circumferential walls in the joining step is comprised of welding by irradiating a spot in the interface between the lid member and the bottom member with laser light. 6. The method of manufacturing a centrifugal pump according to claim 5 , wherein each of the lid member and the bottom member has light-transmitting characteristics, and wherein the method further comprises the step of interposing an optical absorption material at the interface to be irradiated with the laser light. 7. The method of manufacturing a centrifugal pump according to claim 5 wherein the laser light is realized by a semiconductor laser. 8. The method of manufacturing a centrifugal pump according to claim 5 wherein the deformable portions individually incline with respect to a rotational axis of the shaft member.