Liquid flow control apparatus
First Claim
1. In a liquid flow control apparatus the combination comprising:
- means defining a liquid flow path along part of which flow takes place in the form of liquid falling drops each of a determined volume;
flow control valve means in the said path;
a drop detector sensing the passage of each drop in the said part and producing a first signal which is representative of the actual number of drops per unit of time;
setting means for producing a second signal which is representative of a desired number of drops per unit of time, said setting means including one movable member and means for converting a displacement of said member into a signal representative of this displacement; and
servo control means for comparing said first and second signals to produce an error signal for adjusting the valve means in a sense such as to tend to control the number of drops per unit of time at the desired value, and computation and displaying means including;
(a) linear to exponential signal converting means converting said signal representative of the displacement of said one movable member into the exponential thereof, this converted signal constituting said second signal, and(b) a second movable member movable, independently of the said one movable member,(c) means for setting said second movable member in a position representative of the value of the logarithm of the size of each of said drops, said one movable member carrying a first logarithmic scale graduated with respect to the time duration during which the liquid has to be injected and said second movable member carrying a second logarthmic scale graduated with respect to the volume of liquid to be injected, these movable members being arranged so as these scales are juxtaposed each other, whereby the desired number of drops per unit of time can be set by putting the value of the volume of liquid to be injected read off from said second logarithmic scale in registering relation with the value of the time during which this volume of liquid has to be injected, read off from said first logarithmic scale.
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Abstract
There is disclosed liquid flow control apparatus (particularly for use where the flow takes place in the form of drops over at least part of the flow path). A valve in the flow path is controlled by a servo system in dependence on the difference between desired and actual rate of flow signals. A linear to exponential signal converter sets the desired rate of flow signal which is displayed by means of two relatively movable display members one of which is movable to a position dependent on the desired rate of flow and carries a logarithmic scale which is juxtaposed with a logarithmic scale on the other member. For example, the other member may be movable to a position dependent on the size of the drops, and the volume rate of liquid flow for any given time can be read off from the juxtaposed scale. The apparatus also includes a throttle valve comprising two relatively movable throttling members positioned on opposite sides of a flexible tube. One member is pivotable about an axis parallel with the flexible tube and the other is slidably urged towards the tube.
77 Citations
6 Claims
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1. In a liquid flow control apparatus the combination comprising:
- means defining a liquid flow path along part of which flow takes place in the form of liquid falling drops each of a determined volume;
flow control valve means in the said path;
a drop detector sensing the passage of each drop in the said part and producing a first signal which is representative of the actual number of drops per unit of time;
setting means for producing a second signal which is representative of a desired number of drops per unit of time, said setting means including one movable member and means for converting a displacement of said member into a signal representative of this displacement; and
servo control means for comparing said first and second signals to produce an error signal for adjusting the valve means in a sense such as to tend to control the number of drops per unit of time at the desired value, and computation and displaying means including;(a) linear to exponential signal converting means converting said signal representative of the displacement of said one movable member into the exponential thereof, this converted signal constituting said second signal, and (b) a second movable member movable, independently of the said one movable member, (c) means for setting said second movable member in a position representative of the value of the logarithm of the size of each of said drops, said one movable member carrying a first logarithmic scale graduated with respect to the time duration during which the liquid has to be injected and said second movable member carrying a second logarthmic scale graduated with respect to the volume of liquid to be injected, these movable members being arranged so as these scales are juxtaposed each other, whereby the desired number of drops per unit of time can be set by putting the value of the volume of liquid to be injected read off from said second logarithmic scale in registering relation with the value of the time during which this volume of liquid has to be injected, read off from said first logarithmic scale. - View Dependent Claims (2, 3, 4, 5, 6)
- means defining a liquid flow path along part of which flow takes place in the form of liquid falling drops each of a determined volume;
Specification