Container with Synthetic Resin Window, Preform, and Preform Injection Molding Apparatus

1 . A synthetic resin container with a window that is produced by biaxially stretch blow molding a test-tube-shaped preform, the synthetic resin container with a window comprising a circumferential wall including a longitudinal strip-shaped portion that is made of a transparent or a semi-transparent resin and that is formed in a longitudinal strip shape in a circumferentially predetermined position in the circumferential wall over a predetermined height range, the longitudinal strip-shaped portion serving as a window portion. 2 . The synthetic resin container with a window of claim 1 , further comprising a bottom portion, wherein the longitudinal strip-shaped portion is formed over an entire height range measured from a bottom wall of the bottom portion. 3 . The synthetic resin container with a window of claim 1 , wherein, in a bottom wall of a bottom portion, the longitudinal strip-shaped portion is arranged from a peripheral edge toward a center and beyond a center position of the bottom wall. 4 . An injection molded test-tube-shaped preform that is subjected to biaxial stretch blow molding, the preform comprising a circumferential wall including a longitudinal strip-shaped portion that is made of a transparent or a semi-transparent resin and that is formed in a longitudinal strip shape in a circumferentially predetermined position in the circumferential wall over a predetermined height range. 5 . The preform of claim 4 , further comprising a bottom portion wherein the longitudinal strip-shaped portion is formed over an entire height range measured from a bottom wall of the bottom portion. 6 . The preform of claim 4 , wherein, in a bottom wall of a bottom portion, the longitudinal strip-shaped portion is arranged from a peripheral edge toward a center and beyond a center position of the bottom wall. 7 . An injection molding apparatus that injection molds a test-tube-shaped preform that is subjected to biaxial stretch blow molding, the preform including a circumferential wall having a longitudinal strip-shaped portion that is made of a B resin and that is formed in a longitudinal strip shape in a circumferentially predetermined position in the circumferential wall over a predetermined height range, a remaining portion of the circumferential wall excluding the longitudinal strip-shaped portion being made of an A resin, the injection molding apparatus comprising: a nozzle portion that supplies the A resin and the B resin which are molten along a circumferential direction; and a mold that is located in a front end of the nozzle portion, wherein the nozzle portion includes: a cylindrical inner mandrel; an outer mandrel that is arranged coaxially with the inner mandrel; and a columnar shut-off pin that is inserted and arranged in the inner mandrel and that serves to release and shut off flows of the molten resins in a front end portion of the nozzle portion, and wherein between the inner mandrel and the outer mandrel, a cylindrical flows path and a reduced-diameter flow path are formed in the stated order in a direction toward a downstream side, the reduced-diameter flow path being configured by a cylindrical flow path tapered to have a reduced diameter toward downstream, and on downstream of the reduced-diameter flow path, a columnar joining flow path is formed in which the molten resins in cylindrical forms join into a columnar form, and a longitudinal groove flow path is further formed to interrupt the cylindrical flow path and the reduced-diameter flow path in a circumferential direction, the longitudinal groove flow path has a flow path width that is reduced on a downstream side below a predetermined position than on an upper stream side thereof and a flow path depth that is increased on the downstream side below the predetermined position than on the upper stream side thereof, the molten B resin is supplied to the longitudinal groove flow path, and the molten A resin is supplied to the cylindrical flow path excluding the longitudinal groove flow path and the molten resins that have joined into the columnar form are injected and filled into a cavity of the mold via the joining flow path of the nozzle portion and a pin gate located in a position of the cavity of the mold that corresponds to a middle of a bottom wall of a bottom portion of the perform. 8 . The injection molding apparatus of claim 7 , wherein, in the cylindrical flow path and the reduced-diameter flow path, a pair of guiding ribs in the form of longitudinal ridges is arranged in line to partition the cylindrical flow path and the reduced-diameter flow path in the circumferential direction, and the longitudinal groove flow path is formed between the pair of guiding ribs. 9 . The injection molding apparatus of claim 7 , wherein the longitudinal groove flow path has a flow path width that is reduced from a position of a lower end portion of the cylindrical flow path. 10 . The injection molding apparatus of claim 7 , wherein the inner mandrel forming the reduced-diameter flow path is engraved with a slit having an inclination angle that is greater than an inclination angle that the tapered reduced-diameter flow path forms with respect to a central axis of the nozzle portion, in order to increase a flow path depth of the longitudinal groove flow path. 11 . The injection molding apparatus of claim 10 , wherein, in a release position of the shut-off pin, the slit engraved in the inner mandrel is further extended into the shut-off pin to engrave a slit in a portion of the shut-off pin that is located from a circumferential wall to a front end surface thereof, the slit having the inclination angle. 12 . The injection molding apparatus of claim 11 , wherein, in the front end surface of the shut-off pin, the slit is engraved from a peripheral edge toward a center and beyond a center position of the front end surface.