Injection nozzle, injection apparatus, and injection molding machine

What is claimed is: 1 . An injection nozzle attachable to a tip end of a heating cylinder and comprising: an in-nozzle flow path formed therein, wherein the injection nozzle is attached to the heating cylinder by being pressed against the heating cylinder by a nozzle pressing member, the nozzle pressing member being fixed to an end surface of a tip end of the heating cylinder, wherein an outer peripheral surface of the injection nozzle has a sensor hole, the sensor hole being opened in the outer peripheral surface of the injection nozzle at a position contacting the nozzle pressing member, and wherein a temperature sensor is inserted into the sensor hole, wherein a flow path cross-sectional area of the in-nozzle flow path changes at several locations in a flow direction, and wherein the temperature sensor is configured to measure a resin temperature at a portion where a reduction rate of the flow path cross-sectional area in the flow direction of the in-nozzle flow path is highest. 2 . The injection nozzle according to claim 1 , wherein the injection nozzle is one component of a shut-off nozzle that is configured by the injection nozzle and a needle valve, wherein the injection nozzle has a needle hole, the needle hole being opened in the injection nozzle and extending from an outer peripheral surface to the in-nozzle flow path, and wherein the needle valve is inserted into the needle hole so as to be movable forward and backward and to open and close the in-nozzle flow path. 3 . The injection nozzle according to claim 1 , wherein the injection nozzle comprises a nose portion at a downstream side of the injection nozzle and a flange portion on an end portion of the injection nozzle on an upstream side, an outer peripheral surface of the flange portion being enlarged in a diameter compared to the nose portion, wherein the flange portion is configured to be pressed by the nozzle pressing member, and wherein the sensor hole is opened in the outer peripheral surface of the flange portion. 4 . The injection nozzle according to claim 3 , wherein the outer peripheral surface of the flange portion is formed as a smooth cylindrical surface. 5 . The injection nozzle according to claim 1 , wherein the injection nozzle is formed of a single member, and the in-nozzle flow path is seamlessly formed. 6 . An injection apparatus comprising: a heating cylinder; a screw housed in the heating cylinder; and an injection nozzle attached to a tip end of the heating cylinder and having an in-nozzle flow path formed therein, wherein the injection nozzle is attached to the heating cylinder by being pressed against the heating cylinder by a nozzle pressing member, the nozzle pressing member being fixed to an end surface of a tip end of the heating cylinder, wherein an outer peripheral surface of the injection nozzle has a sensor hole, the sensor hole being opened in the outer peripheral surface of the injection nozzle at a position contacting the nozzle pressing member, and wherein a temperature sensor is inserted into the sensor hole via a through hole that is opened in the nozzle pressing member, wherein a flow path cross-sectional area of the in-nozzle flow path changes at several locations in a flow direction, and wherein the temperature sensor is configured to measure a resin temperature at a portion where a reduction rate of the flow path cross-sectional area in the flow direction of the in-nozzle flow path is highest. 7 . The injection apparatus according to claim 6 , wherein an outer peripheral portion of the nozzle pressing member is provided with a nozzle pressing member heater. 8 . The injection apparatus according to claim 6 , wherein the injection nozzle is one component of a shut-off nozzle that is configured by the injection nozzle and a needle valve, wherein the injection nozzle has a needle hole, the needle hole being opened in the injection nozzle and extending from an outer peripheral surface to the in-nozzle flow path, and wherein the needle valve is inserted into the needle hole so as to be movable forward and backward and to open and close the in-nozzle flow path. 9 . The injection apparatus according to claim 6 , wherein the injection nozzle comprises a nose portion at a downstream side of the injection nozzle and a flange portion on an end portion of the injection nozzle on an upstream side, an outer peripheral surface of the flange portion being enlarged in a diameter compared to the nose portion, wherein the flange portion is configured to be pressed by the nozzle pressing member, wherein the outer peripheral surface of the flange portion is formed as a smooth cylindrical surface, and wherein the sensor hole is opened in the outer peripheral surface of the flange portion. 10 . The injection apparatus according to claim 6 , wherein the injection nozzle is formed of a single member, and the in-nozzle flow path is seamlessly formed. 11 . An injection molding machine comprising: a mold clamping device; and an injection apparatus comprising: a heating cylinder; a screw housed in the heating cylinder; and an injection nozzle attached to a tip end of the heating cylinder and having an in-nozzle flow path formed therein; wherein the injection nozzle is attached to the heating cylinder by being pressed against the heating cylinder by a nozzle pressing member, the nozzle pressing member being fixed to an end surface of a tip end of the heating cylinder, wherein an outer peripheral surface of the injection nozzle has a sensor hole, the sensor hole being opened in the outer peripheral surface of the injection nozzle at a position contacting the nozzle pressing member, wherein a temperature sensor is inserted into the sensor hole via a through hole that is opened in the nozzle pressing member, wherein a flow path cross-sectional area of the in-nozzle flow path changes at several locations in a flow direction, and wherein the temperature sensor is configured to measure a resin temperature at a portion where a reduction rate of the flow path cross-sectional area in the flow direction of the in-nozzle flow path is highest. 12 . The injection molding machine according to claim 11 , wherein an outer peripheral portion of the nozzle pressing member is provided with a nozzle pressing member heater. 13 . The injection molding machine according to claim 11 , wherein the injection nozzle is one component of a shut-off nozzle that is configured by the injection nozzle and a needle valve, wherein the injection nozzle has a needle hole, the needle hole being opened in the injection nozzle and extending from an outer peripheral surface to the in-nozzle flow path, and wherein the needle valve is inserted into the needle hole so as to be movable forward and backward and to open and close the in-nozzle flow path. 14 . The injection molding machine according to claim 11 , wherein the injection nozzle comprises a nose portion at a downstream side of the injection nozzle and a flange portion on an end portion of the injection nozzle on an upstream side, an outer peripheral surface of the flange portion being enlarged in a diameter compared to the nose portion, wherein the flange portion is configured to be pressed by the nozzle pressing member, wherein the outer peripheral surface of the flange portion is formed as a smooth cylindrical surface, and wherein the sensor hole is opened in the outer peripheral surface of the flange portion. 15 . The injection molding machine according to claim 11 , wherein the injection nozzle is formed of a single member, and the in