Claims
- 1. Apparatus for measuring the percentage of solid particles in a suspension comprising:
- a chamber adapted to contain a suspension to be measured;
- a radiant energy source;
- means for diffusing energy into said chamber;
- first sensor means attached adjacent to the inside of said chamber for sensing diffused energy in said chamber which is forward-scattered when a suspension is present therein:
- first compensation sensor means external to said chamber and operably connected with said first sensor means and having an electrical characteristic which varies in response to temperature changes the same way as the same electrical characteristic of said first sensor means varies in response to temperature changes:
- second sensor means attached adjacent to the inside of said chamber for sensing diffused energy in said chamber which is back-scattered when a suspension is present therein; and
- second compensation sensor means external to said chamber and operably connected to said second sensor means and having an electrical characteristic which varies in response to temperature changes the same way as the same electrical characteristic of said first means varies in response to temperature changes;
- said first and second sensor means being radiation sensors,
- said first and second compensation sensor means also being radiation sensors and being respectively connected in series reverse with said first and second sensor means,
- whereby said first and second compensation sensor means compensate for variations in temperature of said suspension whereby temperature variations will not create erroneous energy readings in the apparatus.
- 2. A method for determining the percentage of solid particles in a suspension comprising:
- providing a source of diffused radiant energy;
- directing energy from said source toward a suspension to be measured;
- detecting the portion of said energy which is forward-scattered by said suspension;
- producing a first signal indicative of the magnitude of forward-scattered energy and which is not affected by the temperature of said suspension by using a radiation sensor responsive to said forward-scattered energy in series with a matching but reverse-connected compensating sensor which is not responsive to said forward-scattered energy;
- producing a second signal indicative of the magnitude of back-scattered energy and which is not affected by the temperature of said suspension by using a radiation sensor responsive to said back scattered energy in series with a matching but reverse-connected compensating sensor which is not responsive to said back-scattered energy;
- combining said first and second signals at a predetermined ratio to produce a feedback signal; and
- using said feedback signal to control the intensity of energy emitted from said source;
- whereby the intensity of energy emitted from said source is a function of the forward-scattered and back-scattered energy and is directly proportional to the consistency of the suspension being measured irrespective of temperature variations in the suspension.
Parent Case Info
This application is a continuation of application Ser. No. 843,083, filed 3/24/86 now abandoned.
US Referenced Citations (3)
Number |
Name |
Date |
Kind |
3421009 |
Caruthers |
Jan 1969 |
|
4507556 |
Brenholdt |
Mar 1985 |
|
4659930 |
Johnson et al. |
Apr 1987 |
|
Continuations (1)
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Number |
Date |
Country |
Parent |
843083 |
Mar 1986 |
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