Liquids are combined or mixed in many industrial processes. For example, liquids are mixed in the manufacture of products such as chemicals, medications, detergents, paints, and integrated circuits. Liquids are also mixed in treating water for human consumption, or for use in manufacturing. Liquids are mixed for example by pumping one liquid into a container that contains another liquid. It is often difficult to control the amount of a second liquid that is being added to a first liquid.
Advantages and features of the disclosure will readily be appreciated by persons skilled in the art from the following detailed description when read in conjunction with the drawing wherein:
A controller 27 controls the operation of the drop on demand fluid dispenser 15, for example to control the amount of additive fluid 17 that is added to the base liquid 13. The operation of the drop on demand fluid dispenser 15 can be adjusted in response to the output of the input sensor 23 and/or the output of the output sensor 25.
For example, the parameters or characteristics that can be detected by the input and/or output sensor(s) 23, 25 can be one or both of two types: (1) characteristics of the base liquid or the composite liquid that are affected by the additive fluid component(s), and/or (2) characteristics of the composite liquid that are indicative of the concentration of the additive fluid component(s). Specific examples of parameters or characteristics that can be detected or sensed include resistivity, ion count, pH, surface tension, bacteria count, and colorimetry. Also, the input and/or output sensor(s) 23, 25 can be volumetric or flow rate sensors that measure how much liquid is passing through the mixing apparatus.
The system of
Referring now to
A suitable thermal drop on demand drop emitter structure can include, for example, an array of nozzles or openings in an orifice structure that is attached to or integral with a fluid barrier structure that in turn is attached to a thin film substructure that implements drop firing heater resistors and apparatus for enabling the resistors. The fluid barrier structure can define fluid flow control structures, particle filtering structures, fluid passageways or channels, and fluid chambers. The fluid chambers are disposed over associated fluid drop firing resistors, and the nozzles in the orifice structure are aligned with associated fluid chambers, such that thermal drop generators are formed of respectively associated heater resistors, fluid chambers and nozzles. To emit a fluid drop, a selected heater resistor is energized with electric current. The heater resistor produces heat that heats fluid in the adjacent fluid chamber. When the fluid in the chamber reaches vaporization, a rapidly expanding vapor front forces fluid within the fluid chamber through an adjacent orifice. An example of a thermal drop on demand drop emitter structure employed in thermal ink jet printing can be found in commonly assigned U.S. Pat. No. 5,604,519.
The use of a drop on demand fluid drop emitter structure can provide for accurate volumetric fluid dispensing, for example in a closed loop system wherein the operation of the drop on demand fluid drop emitter structure is controlled pursuant to information provided by an input sensor, an output sensor and/or a reference sensor.
An input sensor 123 can be employed to sense or detect one or more parameters or characteristics of the carrier liquid 53 at the input to the drop on demand injection unit, and an output sensor 125 can be employed to sense or detect one or more parameters or characteristics of the liquid mixture 59. Specific examples of parameters or characteristics that can be detected or sensed include resistivity, ion count, pH, surface tension, bacteria count, and colorimetry. Also, the input and/or output sensor(s) 123, 125 can be volumetric or flow rate sensors that measure how much liquid is passing through the mixing apparatus. The outputs of the input sensor 123 and the output sensor 125 are provided to the controller 27 which controls the drop on demand injection module 51 and can also control the pumps 57, 63. The operation of the drop on demand injection module can be adjusted in response to the output or outputs of any input sensor 23 (
Mixing apparatus in accordance with the disclosure can be employed in variety of applications in which a relatively small and controlled amount of an additive fluid is added to a base, receiver or carrier liquid. The mixing apparatus can be particularly useful in applications where extremely high dilution requirements are present and/or the additive must be added precisely as a function of the amount of liquid passing through the mixing apparatus and/or the micromixer.
One example of an application that can employ mixing apparatus in accordance with the disclosure is paint mixing. In such application, the base liquid 13 can be a paint base and the additive fluid 17 comprises one or more colorants such as cyan, yellow, magenta, red, green, blue, orange, for example. The final color can be controlled by real-time colorimetric analysis of the composite liquid and control of the amounts of component additive fluids added. A continuous range of output paint colors can be achieved. The use of drop on demand drop emitting apparatus allows for a wide range of paint colors and accurate control of color.
An illustrative example of paint mixing is making white paints of different shades that are generated by slight differences in colorant additives. By utilizing drop on demand drop emitting apparatus, the amount of each colorant added can be controlled continuously between picoliter amounts and multiple milliliter amounts, for example.
As another example of paint mixing, mixing apparatus in accordance with the disclosure can be employed in a paint gun of a painting system that includes a colorimetric sensor. The colorimetric sensor can be used to detect the color of an area to be matched, and the controller appropriately adjusts the colorants added to a white base paint to produce a matching paint spray output.
Another application that can employ mixing apparatus in accordance with the disclosure is water treatment wherein the drop on demand fluid drop emitter devices emit drops of materials such as water treatment chemicals, biocides, beneficial bacteria, or surfactants. For example, such water treatment would be useful for treating the water supply of a laboratory or a semiconductor fabrication facility where closed loop monitoring of the incoming water supply can be important. As another example, the disclosed mixing apparatus can be used to treat drinking water with very low dosage additives.
The addition of biocides in water treatment can involve very high dilution ratios, and by way of illustrative example the biocide ratio can be varied in response to the bacteria count or trend in bacteria count detected by an input detector that monitors bacteria count. As another example, an output detector that monitors the resultant biocide content can be employed to control the amount of biocide that is added.
The addition of surfactant in water treatment can involve precise control of the amount of surfactant added, for example if the desired surface tension is on a steep part of the curve of surface tension versus surfactant addition. An output detector that monitors the surface tension of the composite liquid can be employed to control the amount of surfactant added.
Another application that can employ mixing apparatus in accordance with the disclosure is adding a radioactive or other tracer to effluent or waste water that is to be treated or collected. Detection of the trace in a stream or other body of water would be indicative of contamination by the effluent or waste water. In this manner, the addition of a radioactive or other tracer to effluent or waste water can be utilized to encourage compliance with waste handling regulations. The use of the disclosed mixing apparatus allows for extremely high dilution ratios, which is particularly useful when employing radioactive tracers. The controller 27 in conjunction with an output sensor and/or an input sensor can determine how much tracer has been added, for example by calculation based on liquid flow rate or measuring the presence of tracer, or both, as a cross-check.
Mixing apparatus in accordance with the disclosure can also be employed in the manufacture of liquid pharmaceuticals. In such application, the drop on demand fluid drop emitting apparatus can be utilized to add biologically active materials to the base liquid 13.
As another example, mixing apparatus in accordance with the disclosure can be employed in a drug delivery system such as an intravenous delivery system wherein one or more drugs are added to a liquid. A plurality of drugs can be delivered simultaneously, and the quantity of each drug can be controlled over a large dynamic range.
More generally, mixing apparatus in accordance with the disclosure can be employed in applications that involve mixing of component fluids, for example wherein one or more of the components comprises a relatively small portion of a desired composite liquid.
It is understood that the above-described embodiments are merely illustrative of the possible specific embodiments which may represent principles of the present invention. Other arrangements may readily be devised in accordance with these principles by those skilled in the art without departing from the scope and spirit of the invention.
Number | Date | Country | |
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Parent | 10137817 | May 2002 | US |
Child | 11054728 | Feb 2005 | US |