Pluggable optical module and optical communication system

The invention claimed is: 1. A pluggable optical module comprising: a pluggable electric connector configured to be insertable into and removable from an optical communication apparatus, the pluggable electric connector being capable of communicating a modulation signal, a communication data signal, and a control signal with the optical communication apparatus, an optical output module configured to output a first optical signal modulated in response to the modulation signal and a local oscillation light, an optical reception module configured to output the communication data signal generated by demodulating a received second optical signal interfering with the local oscillation light, a pluggable optical receptor configured in such a manner that optical fibers are insertable into and removable from the pluggable optical receptor, the pluggable optical receptor being capable of outputting the first optical signal to the optical fiber and forwarding the second optical signal received from the optical fiber to the optical reception module, a first optical fiber connected between the optical output module and the pluggable optical receptor, the first optical signal propagating through the first optical fiber, a second optical fiber connected between the optical output module and the optical reception module, the local oscillation light propagating through the second optical fiber, a third optical fiber connected between the optical reception module and the pluggable optical receptor, the second optical signal propagating through the third optical fiber, and optical fiber housing unit comprising a guide around which the first to third optical fibers can circle, extra lengths of the first to third optical fibers being wound and housed by the guide. 2. The pluggable optical module according to claim 1 , wherein the optical fiber housing unit comprises: a plate; and at least two guides formed on the plate, and each of the first to third optical fibers is wound and housed in any of a first path circling one of the two guides, a second path circling to surround the two guides, and a third path circling each of the two guides, in a combination of two of the first to third paths, or in a combination of three of the first to third paths. 3. The pluggable optical module according to claim 2 , wherein a part or all of the first to third optical fibers include a splice, and the optical fiber housing unit further comprises a splice housing that is formed on the plate and configured to house and fix the splice. 4. The pluggable optical module according to claim 2 , wherein the optical fiber housing unit comprises first to third guides formed on the plate and configured to respectively wind and house the first to third optical fibers. 5. The pluggable optical module according to claim 2 , wherein the optical fiber housing unit comprises fourth to seventh guides, and each of the first to third optical fibers is wound and housed by using a path that is a combination of a part or all of the fourth to seventh guides. 6. The pluggable optical module according to claim 2 , wherein the guide includes a projection that projects outward from an outer perimeter of the guide, and the first to third optical fibers pass under the projection of the guide. 7. The pluggable optical module according to claim 6 , wherein the optical fiber housing unit further comprises an opening that is disposed under the projection of the guide, penetrates the plate, and has a width larger than the projection of the guide. 8. The pluggable optical module according to claim 2 , wherein the optical fiber housing unit further comprises an outer frame that is disposed on the plate and formed to surround the guide, the outer frame includes a projection that projects to the guides, and the first to third optical fibers pass under the projection of the outer frame. 9. The pluggable optical module according to claim 8 , wherein the optical fiber housing unit further comprises an opening that is disposed under the projection of the outer frame, penetrates the plate, and has a width larger than the projection of the outer frame. 10. The pluggable optical module according to claim 1 , wherein the optical fiber housing unit is mounted to be stacked with all or a part of the optical output module, the optical reception module, and the printed circuit board on which components are mounted. 11. The pluggable optical module according to claim 10 , wherein one or both of the optical output module and the optical reception module are mounted on the printed circuit board. 12. The pluggable optical module according to claim 11 , wherein the optical fiber housing unit is mounted to interpose between a first printed circuit board that is the printed circuit board and a second printed circuit board that is the printed circuit board. 13. The pluggable optical module according to claim 11 , wherein the optical fiber housing unit is mounted in such a manner that a surface of the optical fiber housing unit on which the first to third optical fibers are housed faces a side opposite to a part or all of the optical output module, the optical reception module, and the printed circuit board that are stacked.