A fluid level gauging mechanism external of a reservoir bottle in a dispenser which mechanism emits electromagnetic radiation and senses the electromagnetic radiation emitted which passes through the bottle or is reflected from the bottle through a wall of the bottle into the bottle at a first heigh
A fluid level gauging mechanism external of a reservoir bottle in a dispenser which mechanism emits electromagnetic radiation and senses the electromagnetic radiation emitted which passes through the bottle or is reflected from the bottle through a wall of the bottle into the bottle at a first height and senses reflected radiation passing outwardly from the bottle at a second different height.
대표청구항▼
1. A dispenser comprising: a housing,a collapsible bottle containing fluid to be dispensed,a pump mechanism to dispense liquid from the bottle,the bottle having a first end and a second end, the bottle having an outlet opening at the first end, the bottle closed other than for the outlet opening at
1. A dispenser comprising: a housing,a collapsible bottle containing fluid to be dispensed,a pump mechanism to dispense liquid from the bottle,the bottle having a first end and a second end, the bottle having an outlet opening at the first end, the bottle closed other than for the outlet opening at the first end,on dispensing of liquid through the outlet opening by the pump mechanism, a vacuum is created in the bottle and the bottle collapses as a volume of the bottle decreases and the liquid in the bottle is dispensed,the bottle having a length from the first end to the second end which reduces as the volume of the bottle decreases,in a full condition of the bottle when the bottle is filled with the liquid, the volume of the bottle is a first volume and the length of the bottle is a first length,in a second condition of the bottle, the volume is a second volume less than the first volume and the length is a second length less than the first length,the bottle is coupled to the housing at the first end or the bottle with the first end of the bottle fixed to the housing and the second end of the bottle movable relative to the housing as the length of the bottle reduces as the volume of the bottle decreases,the housing carrying a gauging mechanism to estimate the volume of fluid in the bottle,the gauging mechanism comprising:an emitter of electromagnetic radiation within a range of wavelengths, and a sensor of electromagnetic radiation within the range of wavelengths,the emitter fixedly carried on the housing to emit the radiation towards the bottle;the sensor fixedly carried on the housing to receive the radiation from the emitter which is reflected from the bottle,wherein the emitter directs radiation in a direction such that:(a) when the bottle has a length greater than the second length, the radiation emitted by the emitter engages and reflects off a portion of the bottle proximate the second end of the bottle, and(b) when the bottle has a length equal to or less than the second length, the radiation emitted by the emitter does not engage the bottle. 2. A dispenser as claimed in claim 1 wherein: the bottle is removably coupled to the housing at the first end with the bottle extending downwardly from the first end to the second end,in the full condition When filled with the liquid, the second end is located relative the housing at a first height,in the second condition, the second end is located relative the housing at a second height above the first height. 3. A dispenser as claimed in claim 2 wherein: the emitter is carried on the housing at an emitter vertical height, and the sensor is carried on the housing at a sensor vertical height different than the emitter vertical height. 4. A dispenser as claimed in claim 3 wherein the emitter vertical height and the sensor vertical height is each at a height below the second height. 5. A dispenser as claimed in claim 2 wherein the emitter is carried on the housing at an emitter vertical height below the second height, and the sensor is carried on the housing at a sensor vertical height not higher than the emitter vertical height. 6. A dispenser as claimed in claim 5 wherein: the collapsible bottle is removable and replaceable by a non-collapsing container,the container having a first end and a second end, the container having an outlet opening at the first end,the container is removably coupled to the housing at the first end with the container extending downwardly from the first end to the second end with the second end located relative the housing at a height below both the sensor vertical height and the emitter vertical height,on dispensing of liquid through the outlet opening by the pump mechanism, a surface height of an upper surface of the liquid in the container decreases as the liquid in the bottle is dispensed,the wail of the container including window portions permitting electromagnetic radiation within the range of wavelengths to pass through the wall,the window portions including an inlet window and an outlet window,wherein when the container is coupled to the housing:(a) the inlet window is located relative the housing at an inlet vertical height and an outlet window is located relative the housing at an outlet vertical height different than the inlet vertical height, and(b) the emitter is located outside the container exterior of the exterior wall positioned to direct the electromagnetic radiation onto into the container window, and the sensor is located outside the container exterior of the exterior wall to receive electromagnetic radiation from the emitter which is reflected from the container. 7. A dispenser as claimed in claim 6 wherein the fluid level gauging mechanism includes a controller, the controller controlling the operation of the emitter and sensor so as to periodically and successively perform: (i) a step of emitting radiation with the emitter and simultaneously sensing the relative level of radiation reflected from the bottle or the container with the sensor to determine a reflected radiation value,(ii) comparing the reflected radiation value in one step (i) to a compared value selected from a pre-selected value and reflected radiation values sensed in another steps (i), and(iii) identifying when a significant change in the sensed radiation values occurs, and characterizing the significant change in the sensed radiation values as an indication that the level of fluid in the bottle or the container is below a vertical height which is a lower of the sensor vertical height and the emitter vertical height. 8. A dispenser as claimed in claim 7 wherein the electromagnetic radiation is infrared radiation. 9. A dispenser as claimed in claim 7 wherein the container wall is a plastic material translucent to the electromagnetic radiation. 10. A dispenser as claimed in claim 6 wherein the container is not collapsible and has an air inlet which permits air to flow into the container during dispensing of liquid from the container so as to not create a vacuum within the container by dispensing of liquid. 11. A dispenser as claimed in claim 1 wherein the bottle is removably coupled to the housing at the first end. 12. A dispenser as claimed in claim 2 wherein the bottle is removably coupled to the housing at the first end. 13. A dispenser comprising: a housing,a collapsible bottle containing fluid to be dispensed,a pump mechanism to dispense liquid from the bottle,the bottle having a first end and a second end, the bottle having an outlet opening at the first end, the bottle closed other than for the outlet opening at the first end,on dispensing of liquid through the outlet opening by the pump mechanism, a vacuum is created in the bottle and the bottle collapses as a volume of the bottle decreases and the liquid in the bottle is dispensed,the bottle having a length from the first end to the second end which reduces as the volume of the bottle decreases,in a full condition of the bottle when the bottle is filled with the liquid, the volume of the bottle is a first volume and the length of the bottle is a first length,in a second condition of the bottle, the volume is a second volume less than the first volume and the length is a second length k:ss than the first length,the bottle is coupled to the housing at the first end of the bottle with the first end of the bottle fixed to the housing and the second end of the bottle movable relative to the housing as the length of the bottle reduces as the volume of the bottle decreases,the housing carrying a gauging mechanism to estimate the volume of fluid in the bottle, the gauging mechanism comprising:an emitter of electromagnetic radiation within a range of wavelengths, and a sensor of electromagnetic radiation within the range of wavelengths,the emitter fixedly carried on the housing to emit the radiation towards the bottle;the sensor fixedly carried on the housing to receive the radiation from the emitter which is reflected from the bottle,the bottle is coupled to the housing at the first end with the bottle extending vertically from the first end to the second end,in the full condition when filled with the liquid, the second end is located relative the housing at a first height,in the second condition, the second end is located relative the housing at a second height spaced from the first height,the emitter is carried on the housing at an emitter vertical height, and the sensor is carried on the housing at a sensor vertical height, the emitter vertical height is at a height between the first height and the second height and the sensor is carried on the housing at a sensor vertical height between the first height and the second heightwherein the emitter directs radiation in a direction such that:(a) when the bottle is coupled to the housing and the botHe has a length greater than the second length, the radiation emitted by the emitter engages and retlects off a portion of the bottle proximate the second end of the bottle, and(b) when the bottle has a length equal to or less than the second length, the radiation emitted by the emitter does not engage the bottle. 14. A dispenser as claimed in claim 13 wherein: the baffle is coupled to the housing at the first end with the bottle extending downwardly from the first end to the second end,the second height is above the first height,the emitter vertical height is at a height below the second height. 15. A dispenser as claimed in claim 14 wherein the emitter directs radiation in a direction such that: (a) when the bottle is coupled to the housing and the bottle has a length greater than the second length, the radiation emitted by the emitter engages and reflects off a portion of the bottle proximate the second end of the bottle, and(b) when the bottle has a length equal to or less than the second length, the radiation emitted by the emitter does not engage the bottle. 16. A dispenser as claimed in claim 14 wherein the sensor is carried on the housing at a sensor vertical height not higher than the emitter vertical height. 17. New A dispenser as claimed in claim 14 wherein the sensor vertical height is at a height below the second height. 18. A dispenser as claimed in claim 14 wherein the sensor vertical height is different than the emitter vertical height.
Lobdell Donn D. (Golden CO) Herman Stephen J. (Evergreen CO) Anderson Robert L. (Boulder CO) Goyne Thomas E. (Denver CO), Fluid level monitoring through fluid cell protrusion.
Hovinen, Minna; Kingery, John R.; Tom, Glenn M.; O'Dougherty, Kevin T.; Mikkelsen, Kirk; Ware, Donald D.; Van Buskirk, Peter C., Liner-based liquid storage and dispensing systems with empty detection capability.
Yoshida Mitsuo (Yamato JPX) Kihara Toshihiko (Yokohama JPX) Nagasawa Hiroshi (Kawasaki JPX), Liquid level detector for detecting a liquid level when reaching a prescribed height.
Kurahashi Michito (Osaka JPX) Tomikawa Hisao (Kagamigahara JPX) Doi Yuji (Takatsuki JPX), Method and device for detecting average liquid level in a bottle.
Borke, Brian Scott; Dahl, Jacob Charles; Grosz, Jr., John William; Johnson, Alan Joseph; Laitala, John Patrick; Madsen, Nickolas Everett; Schuh, Ryan Joseph; Swanson, Kevin Michael, Sheet product dispenser.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.