A molding method for a seamless crawler is provided in which the number of production steps is few, embedding of spiral reinforcement cords and a circumferentially uniform strength property are made possible, high-speed traveling can be accommodated, and a uniform, reliable pressure for an outer mol
A molding method for a seamless crawler is provided in which the number of production steps is few, embedding of spiral reinforcement cords and a circumferentially uniform strength property are made possible, high-speed traveling can be accommodated, and a uniform, reliable pressure for an outer mold is enabled. The crawler molding method is structured such that a crawler 10 is integrally molded and vulcanized between an endless ring-shaped outer mold 12 and an inner mold 22 . After structural components of the crawler 10 are molded at an outer periphery of the inner mold 22 which is dividable in an axial direction, the outer mold 12 which is divided in a circumferential direction and is slidable in a radial direction is disposed at an outer side an the structural components of the crawler 10 . The outer mold 12 is contracted in the radial direction by pressure applied thereto. Accordingly, the structural components of the crawler 10 are vulcanized.
대표청구항▼
1. A crawler molding method, in which structural components of a crawler are placed between an outer mold and an inner mold to form an endless shape and vulcanized to integrally mold a crawler, comprising:disposing the structural components of the crawler on an outer peripheral surface of the inner
1. A crawler molding method, in which structural components of a crawler are placed between an outer mold and an inner mold to form an endless shape and vulcanized to integrally mold a crawler, comprising:disposing the structural components of the crawler on an outer peripheral surface of the inner mold, which the inner mold is dividable in the axial direction of the crawler; andradially contracting and pressurizing toward the inner mold, by a radially contracting means, a diameter of a circle defined by a plurality of outer molds which are divided and disposed along the outer peripheral surface of the inner mold, whereby the structural components of the crawler are integrally vulcanized,wherein the radially contracting means is formed by on of:an outer mold and a radially contractible inner frame formed on an outer peripheral side of the outer mold, the radially contractible inner frame having an inclined surface inclining in the width direction of the crawler and formed on an outer peripheral surface of the inner frame, the inner frame being movable in the axial direction and in the radial direction with respect to an inner peripheral inclined surface of an outer frame via the inclined surface: and an outer mold, the outer mold having an inclined surface inclining in the width direction of the crawler and formed on an outer peripheral surface of the outer mold, the outer mold being movable in the axial direction with respect to an inner peripheral inclined surface of an outer frame via the inclined surface; andthe structural components of the crawler are integrally vulcanized by moving the outer frame in the width direction of the crawler to radially contract and pressurize the inner frame and the outer molds. 2. The crawler molding method according to claim 1, wherein a crawler molding space which is formed by an outer peripheral surface of the inner mold and an inner peripheral surface defined by the plurality of outer molds is circular from a side view. 3. The crawler molding method according to claim 1, whereinthe inner mold is structured by two semi-circular inner molds and by a plurality of square inner molds which are disposed between the semi-circular inner molds and which allow the outer peripheral surfaces thereof to be continued; andthe outer mold is structured by a plurality of circular arc-shaped outer molds to form a crawler molding space between the outer molds and the semi-circular inner molds, the crawler molding space being semi-circular from a side view, and by a plurality of square outer molds to form a linear crawler molding space between the outer molds and the square inner molds. 4. The crawler molding method according to claim 3, wherein a length of the square outer molds is determined by a crawler pitch which is an interval between one of driving sprocket holes of the crawler and embedded metals, and a number of square outer molds to be used is determined by a circumferential length of the crawler. 5. The crawler molding method according to claim 1, wherein a press plate for pressing the outer frame in the width direction of the crawler is provided. 6. The crawler molding method according to claim 1, whereinthe radially contracting means structured by the inclined surfaces is formed on both end portions of the outer mold in the width direction and by an outer frame which is disposed on both sides of the outer mold and in which inclined surfaces which slide along the inclined surfaces formed on the both end portions of the outer mold is formed on an inner peripheral portion of the outer frame, andthe outer frame is moved toward the outer mold from the both sides, so that the outer mold is radially contracted and pressurized to integrally vulcanize the structural components of the crawler. 7. The crawler molding method according to claim 1, wherein at the time that the inner mold is divided in the axial direction of the crawler and the crawler is released, an outer peripheral portion of the crawler is gripped by a gripping means. 8. The crawler molding method according to claim 7, wherein the gripping means is a gripping member which is driven by a gripping cylinder and which grips an outer peripheral portion of the crawler between the inner mold and the gripping member. 9. The crawler molding method according to claim 1, wherein the inner mold is rotated, and a reinforcement cord which is fed from a wire feeder to an outer peripheral surface of the inner mold is wound. 10. The crawler molding method according to claim 9, wherein the inner mold is mounted on a mold chuck which is rotatably driven by a motor. 11. The crawler molding method according to claim 1, wherein the inner mold is mounted on a mold release driver which moves relative to rails. 12. The crawler molding method according to claim 11, wherein the mold release driver is driven by a cylinder. 13. The crawler molding method according to claim 9, wherein reinforcing wires are coiled as a single reinforcement cord in a spiral configuration to an embedding site on the crawler at a predetermined pitch while being twisted together from the wire feeder. 14. The crawler molding method according to claim 9, wherein the reinforcement cord formed by the wires which have been twisted together in advance is fed from the wire feeder in a spiral configuration. 15. The crawler molding method according to claim 9, wherein the reinforcement cord which has been coated with rubber is fed from the wire feeder in a spiral configuration. 16. The crawler molding method according to claim 9, wherein a canvas-configured body, in which a plurality of reinforcing cords is mounted in one of a row and at an incline at a predetermined bias angle, is fed from the wire feeder. 17. The crawler molding method according to claim 1, wherein the inner mold is divided in three at a center and both sides of the center. 18. The crawler molding method according to claim 1, wherein a tread pattern of a tracking surface of the crawler is defined by an inner peripheral surface of the outer molds. 19. The crawler molding method according to claim 1, wherein the inner mold and the outer mold are heated as heating plates.
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Schleiger Robert L. (Lincoln NE), Building and curing an inextensible belt structure for a tire assembly.
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