Measuring and testing – Volume or rate of flow – Proportional
Reexamination Certificate
2001-12-21
2003-12-30
Patel, Harshad (Department: 2856)
Measuring and testing
Volume or rate of flow
Proportional
C073S202000
Reexamination Certificate
active
06668641
ABSTRACT:
RELATED APPLICATIONS
Patent applications entitled, “Method and Apparatus For Thermal Isolation Of A Thermal Mass Flow Sensor”, having inventors, Jesse Ambrosina and Isao Suzuki, (Attorney Docket No. MKS-92) and “Apparatus and Method For Thermal Management of A Mass Flow Controller”, having inventors, Jesse Ambrosina, Isao Suzuki, and Ali Shajii, (Attorney Docket No. MKS-94), assigned to the same assignee as this application and filed on even date herewith are hereby incorporated by reference in their entirety.
FIELD OF THE INVENTION
The present invention relates to mass flow measuring systems and, more particularly, to mass flow sensor housings that substantially eliminate thermal gradients that might otherwise be imposed upon a mass flow sensor.
BACKGROUND OF THE INVENTION
Capillary tube thermal mass flow sensors exploit the fact that heat transfer to a fluid flowing in a laminar tube from the tube walls is a function of mass flow rate of the fluid, the difference between the fluid temperature and the wall temperature, and the specific heat of the fluid. Mass flow controllers employ a variety of mass flow sensor configurations. For example, one type of construction involves a stainless steel flow tube with two or more resistive elements in thermally conductive contact with the sensor tube. The resistive elements are typically composed of a material having a high temperature coefficient of resistance. Each of the elements can act as a heater, a detector, or both. One or more of the elements is energized with electrical current to supply heat to the fluid stream through the tube. If the heaters are supplied with constant current, the rate of fluid mass flow through the tube can be derived from temperature differences in the elements. Fluid mass flow rates can also be derived by varying the current through the heaters to maintain a constant temperature profile.
Such thermal mass flow sensors may be attached to a mass flow controller, with fluid from the controller's bypass tube feeding the capillary tube (also referred to herein as the sensor tube). Since mass flow measurements are dependent upon the temperature effects of the fluid upon the resistive elements, any external differential temperature imparted to the resistive elements could produce errors in the measurement of a mass flow rate. Unfortunately, thermal mass flow sensors are frequently operated in environments where an external thermal gradient might be imposed upon them. For example, a thermal mass flow sensor may be operated in close proximity to a valve coil that dissipates significant power as it operates. Heat generated from operation of the valve coil may be communicated through a conductive thermal path, such as that provided by a mass flow controller housing, to the mass flow sensor. The heat thus-communicated may impose a thermal gradient upon the mass flow sensor housing which could, in turn, superimpose the external thermal gradient upon the sensor's resistive elements, thus leading to errors in mass flow measurements.
A mass flow sensor that substantially eliminates externally imposed thermal gradients would therefore be highly desirable.
SUMMARY OF THE INVENTION
A mass flow controller in accordance with the principles of the present invention includes a sensor assembly, a valve assembly, and a mass flow controller housing to which the valve and sensor assemblies are attached. A thermally conductive element conducts heat from the valve assembly away from the sensor assembly, thereby reducing uncontrolled contributions of heat to the sensor assembly. In an illustrative embodiment, the mass flow controller includes a thermally conductive enclosure that substantially envelops the sensor and valve assemblies. The thermally conductive element substantially surrounds and makes thermally conductive contact with the valve assembly while, at the same time, making substantial conductive thermal contact with the enclosure.
In an embodiment that does not include the enclosure, the thermally conductive element may include structure on one or more surfaces that accelerate the dissipation of thermal energy from within the valve assembly. Such structure may include fins located on one or more exterior surfaces of the thermally conductive element that do not face the sensor assembly. The thermally conductive element may be composed of a high thermal conductivity material, such as aluminum. In an illustrative embodiment, the thermally conductive element is integral to the valve assembly. That is, in this illustrative embodiment, the exterior wall of the valve assembly is formed to conduct thermal energy away from the mass flow controller sensor assembly.
These and other advantages of the present disclosure will become more apparent to those of ordinary skill in the art after having read the following detailed descriptions of the preferred embodiments, which are illustrated in the attached drawing figures. For convenience of illustration, elements within the Figures may not be drawn to scale.
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Ambrosina Jesse
Shajii Ali
MKS Instruments Inc.
Patel Harshad
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