Patent Application
20060038026
The present invention relates to improvements in and relating to fluid property sensing arrangements and more particularly, but not exclusively to a mixing system including a temperature sensing arrangement of a design that is able to contribute towards improved temperature sensing and/or a method of improved temperature sensing in a mixing valve.
To the present time, the accurate sensing of temperature of a fluid resulting from the mixing of fluids of different temperatures has proved difficult and false temperature values can easily be obtained due to the incomplete mixing of the fluids and/or the positioning of the temperature sensor. For valve systems and the like that rely on accurate temperature sensing as a control signal, inaccuracies in temperature measurement may be particularly problematic. Similar problems may result with mixing of any fluids having different properties, where those properties need to be measured in the mixed fluid.
The term “fluid” is used throughout this specification to cover both liquids and gases. However, by way of simplicity, the present invention will be described particularly in respect of its use in the temperature sensing in conjunction with a mixing valve used for the mixing of hot and cold liquids.
In a domestic or industrial water supply, where hot and cold water is being mixed, a particular problem can be experienced where the hot and cold water pressures and variable hot and cold inlet orifices are substantially equal. This circumstance seems to promote a particular difficulty in correctly ascertaining the temperature of the mixed water, which will ultimately be supplied to the end user.
The present invention, therefore, has as one object of one embodiment to provide improved temperature sensing in or for a fluid mixing system that overcomes or alleviates problems in fluid mixing systems at present. Another or alternative object of the invention is to provide the public with a useful alternative.
Further objects of the invention, according to its various embodiments, will become apparent from the following description.
According to one aspect of the present invention, there is provided a sensing arrangement for sensing one or more properties of a fluid, the sensing arrangement including a fluid flow path and a sensing means to sense one or more fluid properties positioned or positionable within the fluid flow path, wherein in use, the sensing arrangement directs the fluid in a substantially spiral flow within the fluid flow path past the sensing means.
Preferably, the sensing arrangement may include an inlet through which fluid enters the fluid flow path, wherein the fluid inlet is located off centre and oriented to include a transverse component relative to the fluid flow path so as to create the spiral flow.
Preferably, the fluid inlet may be oriented substantially perpendicular to the fluid flow path.
Preferably, the sensing means may be positioned approximately 1.5 D away from the fluid inlet, where D is the diameter of the fluid inlet.
In an alternative embodiment, the sensing means may be positioned less than 1.5 D away from the fluid inlet, when D is the diameter of the fluid inlet.
Preferably, the sensing means may be position d approximately 0.25 A into th fluid flow path where A is the diameter of the fluid flow path.
Preferably, the ratio of D:A may be approximately 0.65:1.
Preferably, the sensing means may sense the temperature of fluid within the fluid flow path.
Preferably, the sensing arrangement may be located downstream of a fluid mixing system fed from at least two fluid supplies, the fluid mixing system having an outlet that forms the inlet to the sensing arrangement.
Preferably, the fluid mixing system may be fed with a hot and a cold water supply and wherein the sensing arrangement provides a signal indicative of the temperature of the fluid to a control means for controlling supply of hot and cold water from the hot and cold water supply.
According to a further aspect of the present invention, a method of sensing one or more properties of a fluid includes providing a temperature sensing means and providing in a fluid flow path a spiral flow of a fluid of which one or more properties is to be sensed, and positioning the sensing means within said spiral flow.
Preferably, the method may include creating the spiral flow by directing fluid into the fluid flow path through an inlet located off centre and at an orientation including a transverse component to said fluid flow path.
Preferably, the method may include directing fluid into the fluid flow path substantially transverse to the fluid flow path.
Preferably, the method may include positioning the sensing means approximately 1.5 D away from the fluid inlet, where D is the diameter of the fluid inlet.
In an alternative embodiment, the method may include positioning the sensing means less than 1.5 D away from the fluid inlet, where D is the diameter of the fluid inlet.
Preferably, the method may include positioning the sensing means approximately 0.25 A into the fluid flow path, where A is the diameter of the fluid flow path.
Preferably, the ratio of D:A may be approximately 0.65:1.
According to another aspect of the present invention, there is provided a fluid system for controlling one or more properties of a fluid, the fluid system including a fluid flow path for the fluid and at least one sensor to sense one or more properties of the fluid and provide a control signal to a controller for controlling at least one of the one or more properties of the fluid dependent on the control signal, wherein in use, the fluid system directs fluid through the fluid flow path in a substantially spiral flow and the at least one sensor is located within the fluid flow path.
Preferably, the fluid within the fluid flow path may be downstream of a location of mixing of at least two fluids.
Preferably, the fluid system may include an inlet to the fluid flow path, wherein the fluid inlet is located off centre and oriented to include a transverse component relative to the fluid flow path so as to create the spiral flow.
Preferably, the at least one sensor may be positioned approximately 1.5 D away from the fluid inlet, where D is the diameter of the fluid inlet.
In an alternative embodiment, the at least one sensor may be positioned less than 1.5 D away from the fluid inlet, where D is the diameter of the fluid inlet.
Preferably, the at least one sensor may be positioned approximately 0.25 A into the fluid flow path where A is the diameter of the fluid flow path.
Preferably, the ratio of D:A may be approximately 0.65:1.
Preferably, the at least one sensor may sense the temperature of fluid within the fluid flow path.
Preferably, the fluid system may be used to sense one or properties of water, wherein the controller controls the supply of at least two supplies of water, each supply at a different temperature.
According to a further aspect of the present invention, there is provided a sensing arrangement for a fluid substantially as herein described and with reference to the accompanying drawings.
According to still further aspect of the present invention, there is provided a method of sensing one or more properties of a fluid substantially as herein described and with reference to the accompanying drawings.
According to another aspect of the present invention, there is provided a fluid system for controlling one or more properties of a fluid substantially as herein described and with reference to the accompanying drawings.
Further aspects of this invention, which should be considered in all its novel aspects will become apparent from the following description, given by way of example of a possible embodiment thereof and in which reference is made to the accompanying drawings.
The present invention includes a sensing arrangement for a fluid, which may be used as part of a control system for fluid mixing. The sensing arrangement includes a fluid flow path, in which fluid is directed in a substantially spiral flow within the fluid flow path is located a sensor to detect a property of the fluid.
The invention may have application to industrial and domestic water supply temperature measurement. The spiral flow induced in the fluid may allow the temperature sensor to be located close to the location of fluid mixing and close to the feed of water to be mixed. Therefore, where the temperature measurement forms part of a control system a faster response time may result.
However, the present invention may have application to fluids other than water and to the detection of properties of a fluid other than temperature. The fluid may be liquid, gas, a vapour or in a mixture of states. Sensing arrangements in accordance with the invention may sense one or a number of properties of the fluid and may be used in the control of one, all or any combination of properties.
Thus, although the following description has been give with particular reference to the sensing of temperature of a liquid and particularly the temperature of mixed hot and cold water, the invention is not limited to such an implementation. It will be appreciated that the present invention could be used in detecting one or more specified properties/characteristics of any required fluid or mixture of fluids, for example pH, viscosity, colour and/or composition.
Referring particularly to
By providing an offset tangential entry of the fluid along the arrow A, a spiral flow is created essentially by the curvature of the inner walls of the passageway 3. The inlet 1 may not necessarily feed fluid into the passageway 3 perpendicular to the direction of travel of the fluid along the passageway, although this is the preferred embodiment. By changing the angle of feed of the fluid to the passageway 3 to include a component along the passageway 3, the number of revolutions in the spiral flow per unit distance along the passageway may be varied. Also, the speed of the fluid along the passageway 3 may be affected.
A temperature sensing means 5 is shown positioned relative to the inlet 1. The sensing means 5 is shown with a probe 6 directed into the spiral flow 2. Suitable sensors for temperature measurement include thermocouples or a thermistors. Where properties of the fluid other than temperature are being sensed, a suitable sensor to detect that or those properties is provided.
As indicated in
Referring now to
An added benefit of the invention is that mixing may be achieved without the use of baffles or the like which would interfere with the fluid flow.
Referring particularly to
Although the invention may be used to measure properties of a fluid passing through a passageway wherein the inlet fluid is the same as the outlet fluid, the invention is anticipated to have particular application to when some properties of the fluid have changed. A common example of this is the mixing of two fluids into one. However, other changes may be implemented such as heating using an external source, introduction of an additive to the fluid flow or any other change that may be required as part of a fluid cycle or process. The present invention may be used to control such changes.
Referring to
Th control mechanism 9 may be operated by a stepper motor, which in turn is controlled by a suitable control circuit (not shown). The control circuit may receive as an input a signal from the temperature sensor 5. The control circuit may control the stepper motor to progressively open or close the inlets 7 and 8 dependent on whether the signal from the temperature sensor 5 indicates a temperature above or below a predetermined set point. Those skilled in the relevant arts will recognise that there are a large number of possible control apparatus and control methodologies that may be used.
The ratio of the diameters of the inlet 1 and the passageway 3 may be adjusted to optimise the spiral action mixing of the fluid in the passageway 3. If appropriate, an insert may be provided in the inlet 1 and/or the passage 3 to provide the optimal ratio. It has been found that a small diameter D of inlet 1 relative to diameter A of passageway 3 may provide an optimal result. A ratio of D:A of approximately 0.65:1 is one which has provided good test results for good temperature sensing and flow.
The mixing valve 10 may be constructed from moulded metal to form the required fluid passageways. Seals are provided at joints where required to avoid leaks. The materials used, dimensions of the mixing valve 10 and dimensions of the passageways may vary depending the fluid/s used and the required rate of fluid communication through the mixing valve.
Where in the foregoing description, reference has been made to specific components or integers of the invention having known equivalents then such equivalents are herein incorporated as if individually set forth.
Although this invention has been described by way of example and with reference to possible embodiments thereof, it is to be understood that modifications or improvements may be made thereto without departing from the scope of the invention as defined in the appended claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 507319 | Oct 2000 | NZ | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/NZ01/00211 | 10/3/2001 | WO | 9/18/2003 |
