Patterned tufted articles, and systems and methods for making same

What is claimed is: 1. A system for controlling the tufting of a patterned tufted article, the system comprising: a bed plate configured to support a backing material; a roll assembly configured to drive movement of the backing material; a hollow needle having an inlet and an outlet; a yarn feed assembly having an inlet and an outlet positioned in communication with the inlet of the hollow needle, wherein the yarn feed assembly is configured to direct yarn to the hollow needle during a yarn feed cycle; a needle actuation assembly configured to drive sequential strokes of reciprocal movement of the hollow needle relative to a tufting axis to penetrate the backing material and position sequential tufts of yarn through the backing material, wherein the needle actuation assembly comprises a main shaft coupled to the hollow needle such that rotational movement of the main shaft imparts corresponding reciprocal movement of the hollow needle; a cutting assembly configured to cut the sequential tuft of yarns to form first and second tuft portions of each tuft that project from a face surface of the backing material and are joined by a backstitch of the tuft, wherein the cutting assembly is configured to cut the sequential tufts of yarn at a fixed cutting location within a cut plane to produce a second tuft portion of a tuft and define a start of a first tuft portion of the next sequential tuft, and wherein the distance between the fixed cutting location and the bed plate relative to the tufting axis is fixed during tufting; and at least one processor communicatively coupled to the yarn feed assembly and the cutting assembly, wherein during at least one selected stroke of the needle actuation assembly the at least one processor is configured to: direct the cutting assembly to effect cutting of a tuft formed by the hollow needle at a selected cut time, wherein the selected cut time corresponds to a first selected rotational position of the main shaft; and activate the yarn feed assembly during a corresponding yarn feed cycle to deliver selected percentages of a yarn feed before and after the selected cut time to thereby produce a second tuft portion having a pile height that is different than a pile height of the first tuft portion of the tuft, wherein the pile height of the first tuft portion or the pile height of the second tuft portion extends above the cut plane, and wherein the first selected rotational position of the main shaft is offset from a halfway point of a corresponding yarn feed cycle. 2. The system of claim 1 , wherein the first selected rotational position of the main shaft ranges from 120 degrees to 180 degrees. 3. The system of claim 2 , wherein, during the at least one selected stroke of the needle actuation assembly, the at least one processor is configured to deliver a first percentage of the yarn feed to the needle before the selected cut time and to deliver a second percentage of the yarn feed to the needle after the selected cut time, wherein the first percentage of the yarn feed is less than the second percentage of the yarn feed in both duration and length. 4. The system of claim 3 , wherein the first percentage ranges from 10 percent to 45 percent, and wherein the second percentage ranges from 55 percent to 90 percent. 5. The system of claim 4 , wherein the first percentage ranges from 35 percent to 40 percent, and wherein the second percentage ranges from 60 percent to 65 percent. 6. The system of claim 3 , wherein, for each selected stroke of the needle actuation assembly, the at least one processor is configured to direct the yarn feed assembly to begin feeding yarn to the hollow needle at a feed start time that corresponds to a second selected rotational position of the main shaft, and wherein the second selected rotational position of the main shaft ranges from 15 degrees to 150 degrees. 7. The system of claim 3 , wherein, for each selected stroke of the needle actuation assembly, the at least one processor is configured to direct the yarn feed assembly to begin feeding yarn to the hollow needle at a feed start time that corresponds to a second selected rotational position of the main shaft and to direct the yarn feed assembly to stop feeding yarn to the hollow needle at a feed stop time that corresponds to a third selected rotational position of the main shaft, wherein the angular difference between the second and third selected rotational positions ranges from 50 degrees to 170 degrees. 8. The system of claim 1 , wherein during at least one stroke of the needle actuation assembly, the processor is configured to selectively control the yarn feed assembly and the cutting assembly to produce a symmetrical tuft having first and second tuft portions with substantially equal pile heights relative to the backing material, wherein the pile height of the second tuft portion of the symmetrical tuft is within 40% above or below the pile height of the first tuft portion of the symmetrical tuft. 9. The system of claim 8 , wherein, during the at least one selected stroke of the needle actuation assembly, the processor is configured to provide yarn to the needle assembly at a selected yarn feed rate that is greater than a yarn feed rate used to produce the symmetrical tuft. 10. The system of claim 9 , wherein during the at least one stroke of the needle actuation assembly that produces a symmetrical tuft, the at least one processor is configured to: direct the cutting assembly to effect cutting of a tuft formed by the hollow needle at a selected cut time; and activate the yarn feed assembly during a corresponding yarn feed cycle to deliver a first percentage of the yarn feed to the needle before the selected cut time and to deliver a second percentage of the yarn feed to the needle after the selected cut time, wherein the first percentage of the yarn feed is greater than the second percentage of the yarn feed in both duration and length. 11. The system of claim 10 , wherein the second percentage of the yarn feed for producing the symmetrical tuft ranges from 5 percent to 45 percent, and wherein the first percentage of the yarn feed for producing the symmetrical tuft ranges from 55 percent to 95 percent. 12. The system of claim 10 , wherein during the at least one stroke of the needle actuation assembly that produces a symmetrical tuft, the selected cut time corresponds to the first selected rotational position of the main shaft. 13. The system of claim 10 , wherein during the at least one stroke of the needle actuation assembly that produces a symmetrical tuft, the selected cut time corresponds to a rotational position of the main shaft different from the first selected rotational position of the main shaft. 14. The system of claim 1 , wherein the at least one processor is configured to activate the yarn feed assembly during the corresponding yarn feed cycle to deliver selected percentages of a yarn feed before and after the selected cut time such that the pile height of the first tuft portion extends above the cut plane. 15. The system of claim 1 , wherein the at least one processor is configured to activate the yarn feed assembly during the corresponding yarn feed cycle to deliver selected percentages of a yarn feed before and after the selected cut time such that the pile height of the second tuft portion extends above the cut plane. 16. The system of claim 1 , wherein the at least one selected stroke comprises a plurality of selected strokes, wherein during the plurality of selected strokes, the processor is configured to: direct the cutting assembly to effect cutting of a plurality o