Differential pressure sensor, and filtration device used therewith

The invention claimed is: 1. A differential pressure sensor comprising: a spool including a flange portion having a substantially cylindrical shape, and a front end portion having a substantially cylindrical shape, a center axis of the front end section being substantially coincident with a center axis of the flange portion, and the front end portion being thinner than the flange portion; a rotation limiting portion having a rod shape thinner than the front end portion, the limiting portion being positioned along the front end portion in a manner contacting a side surface of the front end portion; a casing having a substantially cylindrical shape and including a cavity formed therein, the spool and the rotation limiting portion being disposed in the cavity and being capable of slidingly moving therein; a magnet provided at a distal end of the front end portion and opposing a bottom face of the cavity; a reed switch having a substantially cylindrical shape and positioned inside the casing to oppose the magnet with the bottom face of the cavity interposed between the reed switch and the magnet and a center axis of the read switch being substantially parallel with a center axis of the casing; and an elastic member for applying a force to the spool in a direction toward the bottom face of the cavity, wherein the cavity includes a first cavity having a center axis substantially coincident with a center axis of the casing, a second cavity formed on a distal end face of the first cavity and having a center axis substantially coincident with the center axis of the casing, and a groove portion formed on a side face of the second cavity, an inner diameter of the first cavity is substantially the same as a diameter of the flange portion in length; an inner diameter of the second cavity is substantially greater than a diameter of the front end portion and substantially less than the inner diameter of the first cavity in length, the flange portion is inserted in the first cavity, the distal end portion is inserted in the second cavity, and the rotation limiting portion is inserted in the groove portion, when the flange portion slidingly moves along the first cavity, the rotation limiting portion slidingly moves along the groove. 2. The differential pressure sensor according to claim 1 , further comprising a pin including: the rotation limiting portion; and a head portion disposed at one end of the rotation limiting portion, the head portion having a substantially cylindrical shape and being thicker than the rotation limiting portion, wherein the flange portion is provided with a hole formed therein into which the head portion and the rotation limiting portion are inserted, the elastic member contact both an end face of the head portion and an end face of the flange portion. 3. The differential pressure sensor according to claim 1 , wherein the rotation limiting portion is formed of a material harder than the spool. 4. The differential pressure sensor according to claim 2 , wherein the rotation limiting portion is formed of a material harder than the spool. 5. A filtration device comprising the differential pressure sensor according to claim 1 , wherein the filtration device is in communication with one of the first space and the second space at an upstream side, and is in communication with the other at a downstream side. 6. A filtration device comprising the differential pressure sensor according to claim 2 , wherein the filtration device is in communication with one of the first space and the second space at an upstream side, and is in communication with the other at a downstream side. 7. A filtration device comprising the differential pressure sensor according to claim 3 , wherein the filtration device is in communication with one of the first space and the second space at an upstream side, and is in communication with the other at a downstream side. 8. A filtration device comprising the differential pressure sensor according to claim 4 , wherein the filtration device is in communication with one of the first space and the second space at an upstream side, and is in communication with the other at a downstream side.