An inflation work station for inflating a tire-wheel assembly including a tire mounted to a wheel is disclosed. The inflation work station includes at least one inflation probe including a female portion and a male portion. The male portion is arrangeable with respect to the female portion in one of
An inflation work station for inflating a tire-wheel assembly including a tire mounted to a wheel is disclosed. The inflation work station includes at least one inflation probe including a female portion and a male portion. The male portion is arrangeable with respect to the female portion in one of a non-mated orientation such that the at least one inflation probe is arranged in an offline orientation and a mated orientation such that the at least one inflation probe is arranged in an online orientation. The inflation work station further includes a working device including a controller, at least one movement actuator connected to the controller and the at least one inflation probe. The at least one movement actuator imparts movement to the male portion to result in the online/offline orientation of the at least one inflation probe. The inflation work station includes at least one valve connected to the controller and the at least one inflation probe. The inflation workstation includes at least one pressurized fluid source connected to the at least one inflation probe by way of the at least one valve to permit or deny communication of a pressurized fluid of the at least one pressurized fluid source to a cavity formed by the tire-wheel assembly for inflating the tire-wheel assembly. A method is also disclosed.
대표청구항▼
1. An inflation work station for inflating a tire-wheel assembly including a tire mounted to a wheel, comprising: at least one inflation probe including a female portion, anda male portion, wherein the male portion is arrangeable with respect to the female portion in one of a non-mated orientation,
1. An inflation work station for inflating a tire-wheel assembly including a tire mounted to a wheel, comprising: at least one inflation probe including a female portion, anda male portion, wherein the male portion is arrangeable with respect to the female portion in one of a non-mated orientation, anda mated orientation; anda working device including a controller,at least one movement actuator connected to the controller and the at least one inflation probe, wherein the at least one movement actuator imparts movement to the male portion to result in an extension of the male portion through an opening formed in said female portion. 2. The inflation work station according to claim 1, wherein the working device further comprises: at least one inflation probe, andat least one pressurized fluid source connected to the at least one inflation probe by way of the at least one valve to permit or deny communication of a pressurized fluid of the at least one pressurized fluid source to a cavity formed by the tire-wheel assembly for inflating the tire-wheel assembly;a pressure sensor connected to the at least one inflation probe by way of the at least one valve, wherein the pressure sensor is connected to the controller. 3. The inflation work station according to claim 2, wherein the working device further comprises: means for sensing pressurization of the cavity of the tire-wheel assembly, wherein the means for sensing pressurization is connected to the at least one inflation probe by way of the at least one valve, wherein the means for sensing pressurization is connected to the controller. 4. The inflation workstation according to claim 2, wherein the female portion includes: a distal end that forms a passage that extends through a thickness of the distal end of the female portion, wherein the male portion includesa distal end disposed within the passage when the male portion is arranged with respect to the female portion in the mated orientation. 5. The inflation workstation according to claim 4, wherein the thickness is bound by a front surface of the distal end of the female portion and a rear surface of the distal end of the female portion. 6. The inflation workstation according to claim 5, wherein access to the passage for arranging the distal end of the male portion within the passage of the female portion is permitted by an entrance opening formed by the rear surface of the distal end of the female portion and an exit opening formed by the front surface of the distal end of the female portion. 7. The inflation workstation according to claim 4, wherein the passage includes a substantially square-shape-tubular dimension that is formed by an upper passage surface, a lower passage surface, a left side passage surface and a right side passage surface. 8. The inflation workstation according to claim 7, wherein the distal end of the male portion is formed by a length, a width and a thickness, wherein the length of the distal end of the male portion is bound by a leading edge of the distal end of the male portion and a trailing edge of the distal end of the male portion, wherein the width of the distal end of the male portion is bound by a left side surface of the distal end of the male portion and a right side surface of the distal end of the male portion, wherein the thickness of the distal end of the male portion is bound by a front surface of the distal end of the male portion and a rear surface of the distal end of the male portion. 9. The inflation workstation according to claim 8, wherein, when the male portion is arranged with respect to the female portion in the mated orientation, the male portion fluidly-seals the passage formed by the distal end of the female portion. 10. The inflation workstation according to claim 9, wherein the front surface of the distal end of the male portion directly contacts the upper passage surface of the passage proximate the entrance opening formed by the rear surface of the distal end of the female portion, wherein the rear surface of the distal end of the male portion directly contacts the lower passage surface of the passage proximate the exit opening formed by the front surface of the distal end of the female portion, wherein the left side of the distal end of the male portion directly contacts the left side passage surface of the passage of distal end of the female portion, wherein the right side of the distal end of the second member directly contacts the right side passage surface of the passage of distal end of the female portion. 11. The inflation workstation according to claim 4, wherein a fluid channel extends within the male portion, wherein the fluid channel includes a first end and a second end, wherein the first end of the fluid channel is in fluid communication with the pressurized fluid source, wherein the second end of the fluid channel forms one or more fluid channel openings in the distal end of the male portion. 12. The inflation workstation according to claim 1, wherein the inflation workstation further comprises a robotic arm having a first end and a second send, anda load bearing member having an upper surface, wherein the first end of the robotic arm is attached to and extends from the upper surface of the load bearing member, wherein the second end of the robotic arm terminates head portion, wherein an intermediate portion of the robotic arm is connected to and supports one or more of the working device and the inflation probe, wherein the head portion is interfacable with an axial opening formed by the wheel of the tire-wheel assembly. 13. The inflation workstation according to claim 12, wherein the inflation workstation further comprises a tire-wheel assembly support member that supports the tire-wheel assembly, wherein the upper surface of the load bearing member includes an engagement member that is selectively-interfaced with a mating engagement recess formed in a lower surface of the tire-wheel assembly support member. 14. A method, comprising the steps of: arranging a non-pressurized tire-wheel assembly upon a support surface of an inflation work station;arranging at least one inflation probe including a female portion and a male portion in a non-mated orientation such that the at least one inflation probe is arranged in a retracted position;changing an orientation of the at least one inflation probe from the retracted position to an extended position by moving the female portion relative to the tire-wheel assembly by arranging a passage formed in a distal end of the female portion at least partially within a cavity formed by the tire-wheel assembly, andinserting a distal end of the male portion through the passage formed in a distal end of the female portion such that the distal end of the male portion is arranged in fluid communication with the cavity; andpressurizing the tire-wheel assembly by communicating pressurized fluid from a pressurized fluid source through a fluid channel within the male portion and out of one or more fluid channel openings formed in the distal end of the male portion for communicating the pressurized fluid to the cavity. 15. The method according to claim 14, further comprising the step of: ceasing communication of the pressurized fluid from the pressurized fluid source to the cavity; andutilizing the at least one inflation probe for sensing pressurization of the cavity by communicating the sensed pressurization from the cavity to a pressure sensor, wherein the pressure sensor is in fluid communication with the cavity by way of the fluid channel within the male portion.
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