Partially separated fiber bundle, production method of partially separated fiber bundle, fiber-reinforced resin molding material using partially separated fiber bundle, and production method of fiber-reinforced resin molding material using partially separated fiber bundle

The invention claimed is: 1. A method of producing a partially separated fiber bundle wherein, while a fiber bundle comprising a plurality of single fibers travels along the lengthwise direction of the fiber bundle, a separation means provided with a plurality of projected parts is penetrated into the fiber bundle to create a separation-processed part, and entangled parts, where the single fibers are interlaced, are formed at contact parts with the projected parts in at least one separation-processed part, thereafter the separation means is removed from the fiber bundle, and after passing through an entanglement accumulation part including the entangled parts, the separation means is penetrated again into the fiber bundle, characterized in that a separation means in which the intervals of the projected parts are nonuniform in the width direction of the fiber bundle is penetrated, and separation processing is performed in a nonuniform manner with respect to the width direction of the fiber bundle. 2. A method of producing a partially separated fiber bundle wherein, while a fiber bundle comprising a plurality of single fibers travels along the lengthwise direction of the fiber bundle, a separation means provided with a plurality of projected parts is penetrated into the fiber bundle to create a separation-processed part, and entangled parts, where the single fibers are interlaced, are formed at contact parts with the projected parts in at least one separation-processed part, thereafter the separation means is removed from the fiber bundle, and after passing through an entanglement accumulation part including the entangled parts, the separation means is penetrated again into the fiber bundle, characterized in that a plurality of separation means having different intervals of the projected parts are penetrated in order in the lengthwise direction of the fiber bundle, and separation processing is performed in a nonuniform manner with respect to the lengthwise direction of the fiber bundle. 3. A method of producing a partially separated fiber bundle wherein, while a fiber bundle comprising a plurality of single fibers travels along the lengthwise direction of the fiber bundle, a separation means provided with a plurality of projected parts is penetrated into the fiber bundle to create a separation-processed part, and entangled parts, where the single fibers are interlaced, are formed at contact parts with the projected parts in at least one separation-processed part, thereafter the separation means is removed from the fiber bundle, and after passing through an entanglement accumulation part including the entangled parts, the separation means is penetrated again into the fiber bundle, characterized in that the separation means is penetrated while the width of the fiber bundle is varied, and separation processing is performed in a nonuniform manner with respect to the lengthwise direction of the fiber bundle. 4. A method of producing a partially separated fiber bundle wherein, while a fiber bundle comprising a plurality of single fibers travels along the lengthwise direction of the fiber bundle, a separation means provided with a plurality of projected parts is penetrated into the fiber bundle to create a separation-processed part, and entangled parts, where the single fibers are interlaced, are formed at contact parts with the projected parts in at least one separation-processed part, thereafter the separation means is removed from the fiber bundle, and after passing through an entanglement accumulation part including the entangled parts, the separation means is penetrated again into the fiber bundle, characterized in that the separation means is penetrated while the width of the fiber bundle is varied, and separation processing is performed in a nonuniform manner with respect to the lengthwise direction of the fiber bundle, wherein the nonuniform separation processing with respect to the lengthwise direction of the fiber bundle is performed together with the nonuniform separation processing according to claim 1 . 5. The method according to claim 1 , wherein a pressing force acting on the projected parts per a width of the fiber bundle at the contact parts is detected, and the separation means is removed from the fiber bundle accompanying an increase of the pressing force. 6. The method according to claim 1 , wherein the presence of a twist of the fiber bundle in a range of 10 to 1,000 mm from the separation means having been penetrated into the fiber bundle in at least one of the front and rear of the fiber bundle along the lengthwise direction of the fiber bundle is detected by an imaging means. 7. The method according to claim 6 , wherein a pressing force acting on the projected parts per a width of the fiber bundle at the contact parts is detected, a twist is detected by the imaging means, and the separation means is controlled so that the pressing force is reduced until the projected parts are passed through the twist from immediately before being contacted with the twist. 8. The method according to claim 1 , wherein a plurality of the projected parts are independently controllable. 9. The method according to claim 1 , wherein the separation means has a rotational shaft orthogonal to the lengthwise direction of the fiber bundle, and the projected parts are provided on a surface of the rotational shaft.