Shopping facility assistance systems, devices and methods to drive movable item containers
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B66F-009/06
G01C-021/20
G05D-001/00
G05D-001/02
G06Q-030/06
G06Q-010/08
G06Q-050/28
B60P-003/06
A47F-003/08
A47F-010/04
B62B-005/00
G06Q-010/02
G06Q-050/30
G01S-001/02
G01S-001/70
G01S-001/72
G06Q-010/06
G06Q-030/02
H04W-004/04
G06Q-030/00
H04N-005/77
H04N-007/18
E01H-005/06
E01H-005/12
G06Q-010/00
G06Q-010/10
H04W-004/00
H04W-004/02
A47F-010/02
출원번호
US-0061474
(2016-03-04)
등록번호
US-9908760
(2018-03-06)
발명자
/ 주소
High, Donald R.
Winkle, David C.
Atchley, Michael D.
출원인 / 주소
Wal-Mart Stores, Inc.
대리인 / 주소
Fitch, Even, Tabin & Flannery LLP
인용정보
피인용 횟수 :
7인용 특허 :
197
초록▼
Some embodiments include a motorized transport unit providing customer assistance at a shopping facility, comprises: a transceiver; a control circuit; a motorized wheel system; a lift system; and a memory coupled to the control circuit and storing computer instructions that when executed by the cont
Some embodiments include a motorized transport unit providing customer assistance at a shopping facility, comprises: a transceiver; a control circuit; a motorized wheel system; a lift system; and a memory coupled to the control circuit and storing computer instructions that when executed by the control circuit cause the control circuit to: activate a motorized wheel system, while continuing to monitor location information, to position the motorized transport unit under the item container and aligned, based on the location information, relative to a frame of the item container; and activate the lift system to lift on the frame of the item container lifting a first portion of the item container such one or more wheels of the item container are lifted off of a floor while two or more other wheels of the item container remain in contact with the floor.
대표청구항▼
1. A motorized transport unit providing customer assistance at a shopping facility, comprising: a transceiver configured to wirelessly receive communications from a remote central computer system;a control circuit coupled with the transceiver;a motorized wheel system controlled by the control circui
1. A motorized transport unit providing customer assistance at a shopping facility, comprising: a transceiver configured to wirelessly receive communications from a remote central computer system;a control circuit coupled with the transceiver;a motorized wheel system controlled by the control circuit;a lift system controlled by the control circuit; anda memory coupled to the control circuit and storing computer instructions that when executed by the control circuit cause the control circuit to: activate the motorized wheel system, while continuing to monitor location information, to position the motorized transport unit under an item container and aligned, based on the location information, relative to a frame of the item container, wherein the item container is one of a plurality of item containers that are usable by customers and configured to be moved by customers through the shopping facility; andactivate the lift system to lift on the frame of the item container lifting a first portion of the item container such that one or more wheels of the item container are lifted off of a floor while two or more other wheels of the item container remain in contact with the floor;one or more traction sensors cooperated with the motorized wheel system and configured to detect a reduction in traction of one or more wheels of the motorized wheel system;wherein the control circuit is coupled with the one or more traction sensors, and further configured to activate the lift system to adjust a lift height of one side of the item container relative to the one or more wheels corresponding to the detected reduction in traction to increase weight on the one or more wheels relative to other wheels of the motorized wheel system. 2. The motorized transport unit of claim 1, wherein the control circuit is further configured to activate the motorized wheel system, in accordance with shopping route instructions received from the central computer system, to drive the item container through the shopping facility along a shopping route while the two or more other wheels of the item container continue to be in contact with the floor and supporting a portion of the weight of the item container and products placed into the item container. 3. The motorized transport unit of claim 1, further comprising: actuatable clamps controlled by the control circuit; andwherein the control circuit, in response to positioning the motorized transport unit under the item container and aligned relative to the frame of the item container, is further configured to activate the clamps to engage and removably clamp to the frame of the item container and temporarily secure the motorized transport unit with the item container. 4. The motorized transport unit of claim 1, further comprising: one or more wireless tag sensors coupled with the control circuit;wherein the control circuit is further configured to receive, from the one or more tag sensors, the location information comprising tag location information wirelessly detected from multiple different wireless tags positioned at different positions on the item container, and to identify a location and orientation of the item container relative to the motorized transport unit based on the tag location information detected by the one or more wireless tag sensors. 5. The motorized transport unit of claim 4, wherein the control circuit is further configured to: wirelessly receive positioning route instructions from the central computer system; andactivate the motorized wheel system to move the motorized transport unit through at least a portion of the shopping facility and to position the motorized transport unit, in accordance with the positioning route instructions, proximate the item container such that the one or more tag sensors are capable of sensing at least one of the wireless tags on the item container. 6. The motorized transport unit of claim 1, wherein the lift system comprises a plurality of hydraulic lifts that are spaced relative to each other and upon activation lift the one or more wheels of the item container off of the floor. 7. The motorized transport unit of claim 6, further comprising: a body having a top portion and a bottom portion;wherein the hydraulic lifts cooperate with at least the top portion such that when activated cause the top portion to lift relative to the bottom portion and lifting the first portion of the item container. 8. The motorized transport unit of claim 6, further comprising: a pair of arms that are rotatably cooperated with a body of the motorized transport unit; andan actuatable clamp positioned on each of the arms such that the arms are rotated to position the clamps relative to the frame of the item container. 9. The motorized transport unit of claim 1, wherein the control circuit is further configured adjust a speed of at least one wheel based on the detected reduction in traction. 10. The motorized transport unit of claim 1, wherein the control circuit is further configured to cause a notification to be communicated to a user interface unit of a customer associated with the motorized transport unit. 11. The motorized transport unit of claim 1, wherein the control circuit is further configured to activate the lift system to balance the item container. 12. A method of providing customer assistance at a shopping facility, comprising: by a control circuit:activating a motorized wheel system of a motorized transport unit, while continuing to monitor location information, to position the motorized transport unit under an item container and aligned, based on the location information, relative to a frame of the item container, wherein the item container is one of a plurality of item containers that are usable by customers and configured to be moved by customers through a shopping facility;activating a lift system to lift on the frame of the item container lifting a first portion of the item container such that one or more wheels of the item container are lifted off of a floor while two or more other wheels of the item container remain in contact with the floor;receiving, from one or more traction sensors cooperated with the motorized wheel system, traction sensor data indicating a reduction in traction of one or more wheels of the motorized wheel system; andactivating the lift system to adjust a lift height of one side of the item container relative to the one or more wheels corresponding to the detected reduction in traction to increase weight on the one or more wheels relative to other wheels of the motorized wheel system. 13. The method of claim 12, further comprising: activating the motorized wheel system, in accordance with shopping route instructions received from a central computer system, to drive the item container through the shopping facility along a shopping route while the two or more other wheels of the item container continue to be in contact with the floor and supporting a portion of the weight of the item container and products placed into the item container. 14. The method of claim 12, further comprising: activating, in response to positioning the motorized transport unit under the item container and aligned relative to the frame of the item container, actuatable clamps to engage and removably clamp to the frame of the item container and temporarily secure the motorized transport unit with the item container. 15. The method of claim 12, further comprising: receiving, from one or more wireless tag sensors of the motorized transport unit, the location information comprising tag location information wirelessly detected from multiple different wireless tags positioned at different positions on the item container; andidentifying a location and orientation of the item container relative to the motorized transport unit based on the tag location information detected by the one or more wireless tag sensors. 16. The method of claim 15, further comprising: wirelessly receiving positioning route instructions from a central computer system; andactivating the motorized wheel system to move the motorized transport unit through at least a portion of the shopping facility and to position the motorized transport unit, in accordance with the positioning route instructions, proximate the item container such that the one or more tag sensors are capable of sensing at least one of the wireless tags on the item container. 17. The method of claim 12, wherein the activating the lift system comprises activating each of a plurality of hydraulic lifts that are spaced relative to each other to cause, upon activation, the lifting the one or more wheels of the item container off of the floor. 18. The method of claim 17, wherein the lift system is cooperated with a top portion of a body of the motorized transport unit; and wherein the activating the hydraulic lifts comprises lifting a top portion of the motorized transport unit relative to a bottom portion and lifting the first portion of the item container. 19. The method of claim 17 further comprising: rotating a pair of arms that are rotatably cooperated with a body of the motorized transport unit, wherein a clamp is positioned on each of the arms;positioning the clamps, based on the rotation of the arms, relative to the frame; andactivating the clamps when rotated into position relative to the frame of the item container through the rotation of the arms.
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Mountz,Michael C.; D'Andrea,Raffaello; LaPlante,John A.; Lyons, II,David P.; Mansfield,Peter K.; Amsbury,Burl W., Inventory system with mobile drive unit and inventory holder.
Cowe Alan B. (12 Towpath Rd. Denville NJ 07834) Werres Roland (27 Chesterfield Dr. Warren NJ 07059), Materials monitoring systems, materials management systems and related methods.
Bell, Jamie; Chandrasekar, Kashyap; Graham, Andres Evan; Howse, David Charles, Method and apparatus for sensing object load engagement, transportation and disengagement by automated vehicles.
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Pilley Harold R. (Reservoir Rd. ; Box 204 Deering NH 03244) Pilley Lois V. (Reservoir Rd. ; Box 204 Deering NH 03244), Method and system for airport control and management.
Tracy William X. ; Roslak Thomas K. ; Murrah Judith ; Riso Francis ; Beach Robert ; Sandler Robert, Method and system for presenting item information using a portable data terminal.
Tracy, William X.; Roslak, Thomas K.; Murrah, Judith; Riso, Francis; Beach, Robert; Sandler, Robert, Method and system for presenting item information using a portable data terminal.
Laffoon,Christopher M.; Grigsby,Travis M.; Srikanth,Viswanath; Chaney,Craig W.; Lemanski,Kathryn J., Method for identification, tracking, and notification of abandoned items in a store.
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Francis, Robert C.; McGee, James P.; Sainati, Robert A.; Sheehan, Jr., Richard L.; Tong, Sai-Kit K., Object tracking and management system and method using radio-frequency identification tags.
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Espy Calvin L. ; Huang Jianzhong ; Ming John C. ; Peng Antai ; Briggs Barry D., Price determination system and method using digitized gray-scale image recognition and price-lookup files.
George ; II Robert W. (Windham NH) DiPietro Michael C. (Tewksbury MA) Kadonoff Mark B. (Somerville MA) Maddox James F. (Arlington MA), Recharge docking system for mobile robot.
Zini, Aldo; Allen, Spencer Wayne; Skirble, Barry Mark; Thorne, Henry F; Fairley, Stuart, Robotic ordering and delivery apparatuses, systems and methods.
Zini, Aldo; Allen, Spencer Wayne; Skirble, Barry Mark; Thorne, Henry F; Fairley, Stuart, Robotic ordering and delivery apparatuses, systems and methods.
D'Andrea, Raffaello; Wurman, Peter R.; Barbehenn, Michael T.; Hoffman, Andrew E.; Mountz, Michael C., System and method for coordinating movement of mobile drive units.
Haartsen, Jacobus C.; Camp, Jr., William O.; Johnson, Phillip Marc; Ingram, Norbert Donald, System and method for determining positioning information via modulated light.
Hoffman, Andrew E.; Mountz, Michael C.; Barbehenn, Michael T.; Allard, James R.; Kimmel, Matthew E.; Santini, Fabrizio; Decker, Michael H.; D'Andrea, Raffaello; Wurman, Peter R., System and method for inventory management using mobile drive units.
Bonner, Brett Bracewell; Hjelm, Christopher Todd; Jones, Titus Arthur; Osborne, II, John Edward; Perkins, Dion Brent; Menz, Gregory Michael, Systems of influencing shoppers at the first moment of truth in a retail establishment.
Szybalski, Andrew; Gomez, Luis Ricardo Prada; Urmson, Christopher Paul; Thrun, Sebastian; Nemec, Philip, User interface for displaying internal state of autonomous driving system.
Szybalski, Andrew; Prada Gomez, Luis Ricardo; Urmson, Christopher Paul; Thrun, Sebastian; Nemec, Philip, User interface for displaying internal state of autonomous driving system.
McHale, Brian G.; Winkle, David C.; Atchley, Michael D.; Chakrobartty, Shuvro; High, Donald R., Shopping facility assistance system and method having a motorized transport unit that selectively leads or follows a user within a shopping facility.
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