Conveyor system and method for accumulating packages of varying lengths
First Claim
1. An accumulation conveyor for moving packages, said accumulation conveyor comprising:
- a package measurement system comprising a plurality of sensors configured to detect a first package defining a first length and a second package defining a second length that is different than the first length;
a conveying surface divided into a plurality of adjacent zones, wherein each of the zones comprises at least one of the sensors;
a drive system configured to drive each of the zones of the conveying surface; and
a drive controller connected in communication with the package measurement system and configured to determine a first number of zones needed to accommodate the first length of the first package, determine a second number of zones needed to accommodate the second length of the second package, wherein the first number of zones may be different than the second number of zones, and coordinate driving the first number of zones and the second number of zones in order to move the first package and the second package along the accumulation conveyor.
1 Assignment
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Accused Products
Abstract
A drive controller for controlling movement of a plurality of packages by an accumulation conveyor. The drive controller is configured to determine a length of each of the packages and to coordinate driving of a number of zones needed to accommodate the package. For example, a sensor in each of the conveyor zones communicates blockage by the packages to the drive controller. The drive controller determines a sequence of blockage of the sensors in adjacent zones. Blockage of the sensor in an upstream zone before the sensor in a downstream zone indicates an oversized package that extends longer than a zone length of the downstream zone and into the upstream zone. The drive controller is configured to drive the downstream zone and upstream zone simultaneously when detecting the oversized package.
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Citations
24 Claims
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1. An accumulation conveyor for moving packages, said accumulation conveyor comprising:
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a package measurement system comprising a plurality of sensors configured to detect a first package defining a first length and a second package defining a second length that is different than the first length; a conveying surface divided into a plurality of adjacent zones, wherein each of the zones comprises at least one of the sensors; a drive system configured to drive each of the zones of the conveying surface; and a drive controller connected in communication with the package measurement system and configured to determine a first number of zones needed to accommodate the first length of the first package, determine a second number of zones needed to accommodate the second length of the second package, wherein the first number of zones may be different than the second number of zones, and coordinate driving the first number of zones and the second number of zones in order to move the first package and the second package along the accumulation conveyor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An accumulating conveyor including:
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(a) a plurality of accumulating zones arranged in end-to-end relationship and defining a conveying path for product flow, said plurality of accumulating zones including an infeed accumulating zone relative to product flow along said conveying path, and a discharge accumulating zone relative to product flow along said conveying path, each said accumulating zone separately engageable and disengageable with a drive force; (b) an accumulating controller comprising at least one accumulation module associated with at least one of the accumulating zones, each accumulation module including; (i) logic circuitry; (ii) a sensor in communication with said logic circuitry; (iii) input/output connections in communication with said logic circuitry including a drive/no drive signal output; (c) wherein said accumulation modules are linked together via said input/output connections such that each accumulation module is in communication with an adjacent downstream accumulation module relative to product flow and an adjacent upstream accumulation module relative to product flow, and, in the case of an infeed accumulation module within said infeed accumulation zone said infeed accumulation module is in communication only with an adjacent downstream accumulation module relative to product flow, and, in the case of a discharge accumulation module within said discharge accumulation module is in communication only with an adjacent upstream accumulation module relative to product flow; and (d) wherein said accumulation controller is selectively settable to convey product along the accumulating conveyor and the accumulation controller is configured to determine a number of zones needed to accommodate a length of each product conveyed along the accumulating conveyor based upon a sequence by which sensors of adjacent accumulation zones detect products conveyed along the accumulating conveyor. - View Dependent Claims (11, 12, 13, 14)
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15. An accumulation conveyor comprising:
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a conveyor comprising a subject zone disposed adjacent to a downstream zone, the subject zone comprises a first sensor and a first drive system, the downstream zone comprises a second sensor and a second drive system, and wherein the first sensor and the second sensor are each configured to define a detection state; and logic circuitry disposed in communication with the first sensor, the first drive system, the second sensor, and the second drive system, wherein the logic circuitry is configured to monitor the detection states of the first sensor and the second sensor, determine a sequence by which the first sensor and the second sensor achieved their detection states, and determine a drive output for operating the first drive system and the second drive system substantially simultaneously, or independently, based on the detection state of the first sensor, the detection state of the second sensor, and the sequence by which the first sensor and the second sensor achieved their detection states, wherein the drive output operates the first drive system and the second drive system substantially simultaneously when; (a) the first sensor achieves a blocked detection state; (b) the second sensor achieves a blocked detection state; and (c) the first sensor achieved the blocked detection state before the second sensor achieved the blocked detection state. - View Dependent Claims (16, 17, 18)
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19. An accumulation conveyor comprising:
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a conveyor comprising a subject zone disposed adjacent to a downstream zone, the subject zone comprises a first sensor and a first drive system, the downstream zone comprises a second sensor and a second drive system, and wherein the first sensor and the second sensor are each configured to define a detection state; and logic circuitry disposed in communication with the first sensor, the first drive system, the second sensor, and the second drive system, wherein the logic circuitry is configured to monitor the detection states of the first sensor and the second sensor, determine a sequence by which the first sensor and the second sensor achieved their detection states, and determine a drive output for operating the first drive system and the second drive system substantially simultaneously, or independently, based on the detection state of the first sensor, the detection state of the second sensor, and the sequence by which the first sensor and the second sensor achieved their detection states, wherein the drive output operates the first drive system and the second drive system substantially independently when; (a) the first sensor achieves a blocked detection state; (b) the second sensor achieves a blocked detection state; and (c) the first sensor achieved the blocked detection state after the second sensor achieved the blocked detection state.
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20. A method of controlling an accumulation conveyor comprising:
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providing a conveyor comprising a subject zone disposed adjacent to a downstream zone, the subject zone comprising a first sensor and a first drive system, the downstream zone comprising a second sensor and a second drive system, wherein the first sensor and the second sensor are each configured to define a detection state; providing logic circuitry disposed in communication with the first sensor, the first drive system, the second sensor, and the second drive system; monitoring the detection states of the first sensor and the second sensor; determining a sequence by which the first sensor and the second sensor achieved their detection states; and determining a drive output for operating the first drive system and the second drive system substantially simultaneously, or independently, based on the detection state of the first sensor, the detection state of the second sensor, and the sequence by which the first sensor and the second sensor achieved their detection states, wherein the determined drive output operates the first drive system and the second drive system substantially simultaneously when; (a) the first sensor achieves a blocked detection state; (b) the second sensor achieves a blocked detection state; and (c) the first sensor achieved the blocked detection state before the second sensor achieved the blocked detection state. - View Dependent Claims (21, 22, 23)
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24. A method of controlling an accumulation conveyor comprising:
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providing a conveyor comprising a subject zone disposed adjacent to a downstream zone, the subject zone comprising a first sensor and a first drive system, the downstream zone comprising a second sensor and a second drive system, wherein the first sensor and the second sensor are each configured to define a detection state; providing logic circuitry disposed in communication with the first sensor, the first drive system, the second sensor, and the second drive system; monitoring the detection states of the first sensor and the second sensor; determining a sequence by which the first sensor and the second sensor achieved their detection states; and determining a drive output for operating the first drive system and the second drive system substantially simultaneously, or independently, based on the detection state of the first sensor, the detection state of the second sensor, and the sequence by which the first sensor and the second sensor achieved their detection states, wherein the determined drive output operates the first drive system and the second drive system substantially independently when; (a) the first sensor achieves a blocked detection state; (b) the second sensor achieves a blocked detection state; and (c) the first sensor achieved the blocked detection state after the second sensor achieved the blocked detection state.
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Specification