Liquid metering unit responsive to the weight of the metered liquid
First Claim
1. In a process for the control of liquid flow at a desired low flow rate, which comprises alternately filling and emptying two fixed reservoirs, the one reservoir being filled from a supply of the said liquid while the other is being emptied through a flow control valve to an outlet pipe, the flow of liquid to and from said reservoirs being automatically switched from one reservoir to the other as the liquid level in the reservoir being emptied sinks to a predetermined level, the improvement which comprises:
- (a) continuously sensing the change of apparent weight of an elongated solid element suspended in the reservoir being emptied, said element having a specific gravity greater than said liquid and a length that is greater than the variation of liquid level in the said reservoir;
(b) generating an analogue electrical signal proportional to the sensed apparent weight of said solid element;
(c) converting the analogue signal to a digital flow signal proportional to the rate of change of said analogue signal and thus proportional to the rate of mass discharge from the reservoir being empltied;
(d) comparing the digital flow signal with a digital demand signal representative of a desired mass flow rate;
(e) automatically adjusting the setting of the flow control valve in response to any difference between the digital flow signal and said demand signal, thereby to increase or decrease the mass flow rate from the reservoir being emptied, as may be necessary to achieve equalization of said digital flow signal and said demand signal;
(f) continuously monitoring said analogue signal;
(g) automatically switching the discharge from one reservoir to the other when said analogue signal reaches a predetermined level; and
(h) immediately prior to the switch over from one reservoir to the other, memorizing the frequency of said digital signal as existing immediately prior to the change over of liquid discharge from one reservoir to the other, generating a substitute digital flow signal having a frequency equal to that of the memorized signal, and during the period of change over using that substitute digital flow signal in step (d) for comparison with said demand signal, thereby to maintain the setting of the flow control valve unchanged during the period of the change over.
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Accused Products
Abstract
A process and apparatus are disclosed for the accurate measurement and control of liquid flow at low flow rates. The invention is particularly applicable to the measurement and control of continuous liquid blending operations, e.g. gasoline blending, in which a liquid additive, e.g. tetraethyl lead, is fed into a continuously flowing liquid stream, the additive being added in precisely controlled amounts requiring precise control of liquid flow at very low flow rates. According to the invention the additive is fed from a stock tank 1 alternately into one or the other of two reservoirs 6, 7 connected in parallel between the inlet line 3 from the stock tank and an outlet line 20. As the one reservoir is being charged, the other is being discharged through the four-way valve 5 to the outlet. Flow through the outlet line 20 is controlled by a valve 22. In accordance with the invention, the mass of liquid is continuously monitored by means in each reservoir sensitive to the weight of liquid in the reservoir which emits a signal proportional to the mass of liquid in the reservoir. This signal is passed to a differentiator for conversion into a flow signal proportional to the mass flow rate. The flow rate signal is fed to a ratio controller 36 for comparison with a demand signal fed via line 39 representing the desired flow rate. Depending on the difference, if any, between the flow signal and the demand signal, a control signal is sent via line 35 to automatically adjust the setting of the valve 22 and bring the flow rate to the desired value.
35 Citations
14 Claims
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1. In a process for the control of liquid flow at a desired low flow rate, which comprises alternately filling and emptying two fixed reservoirs, the one reservoir being filled from a supply of the said liquid while the other is being emptied through a flow control valve to an outlet pipe, the flow of liquid to and from said reservoirs being automatically switched from one reservoir to the other as the liquid level in the reservoir being emptied sinks to a predetermined level, the improvement which comprises:
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(a) continuously sensing the change of apparent weight of an elongated solid element suspended in the reservoir being emptied, said element having a specific gravity greater than said liquid and a length that is greater than the variation of liquid level in the said reservoir; (b) generating an analogue electrical signal proportional to the sensed apparent weight of said solid element; (c) converting the analogue signal to a digital flow signal proportional to the rate of change of said analogue signal and thus proportional to the rate of mass discharge from the reservoir being empltied; (d) comparing the digital flow signal with a digital demand signal representative of a desired mass flow rate; (e) automatically adjusting the setting of the flow control valve in response to any difference between the digital flow signal and said demand signal, thereby to increase or decrease the mass flow rate from the reservoir being emptied, as may be necessary to achieve equalization of said digital flow signal and said demand signal; (f) continuously monitoring said analogue signal; (g) automatically switching the discharge from one reservoir to the other when said analogue signal reaches a predetermined level; and (h) immediately prior to the switch over from one reservoir to the other, memorizing the frequency of said digital signal as existing immediately prior to the change over of liquid discharge from one reservoir to the other, generating a substitute digital flow signal having a frequency equal to that of the memorized signal, and during the period of change over using that substitute digital flow signal in step (d) for comparison with said demand signal, thereby to maintain the setting of the flow control valve unchanged during the period of the change over. - View Dependent Claims (2)
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3. In a continuous blending process in which an additive liquid is fed at a controlled rate into a continuously flowing stream of a second liquid, which comprises feeding the liquid additive from a supply alternately into two fixed reservoirs mounted in parallel and discharging the liquid additive from said reservoirs at a controlled rate through a flow control valve into said stream of second liquid, the one reservoir being filled while the other is being discharged, the improvement which comprises:
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(a) generating an electrical signal having a value proportional to the rate of mass discharge from the reservoir being emptied; (b) using that signal for comparison with a demand signal representative of the desired mass flow rate of the liquid additive; (c) allowing adjustment of the setting of the flow control valve in response to any difference between said first signal and said demand signal, thereby to increase or decrease the flow rate of the additive from the reservoir being emptied, as may be necessary to achieve equalization of said first signal and said demand signal; (d) automatically switching the discharge from one reservoir to the other when the signal from the reservoir being emptied reaches a predetermined value; (e) immediately prior to switching over from one reservoir to the other, memorizing the said value of said electrical signal as it exists immediately before the change over, generating a substitute signal equal to that memorized value, and substituting that substitute signal, during the period of change over, in place of the actual signal for comparison with said demand signal, thereby to maintain the setting of the flow control valve unchanged during the period of change over; (f) cyclically repeating operations (a) to (e) with respect to each reservoir in turn as it is being emptied. - View Dependent Claims (4, 5, 6, 7, 8, 9)
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10. In an apparatus for the continuous control of liquid flow at low flow rates, comprising two fixed reservoirs connected in parallel between an inlet line and an outlet line, means for alternately connecting each of said reservoirs in turn to the inlet line while the other is connected to the outlet line, so that the one reservoir can be filled with said liquid while the other is being emptied, a flow control valve in said outlet line, means associated with each reservoir for sensing the amount of liquid in the reservoir, means for generating a signal proportional to the amount of liquid in each reservoir, means for generating a flow signal proportional to the rate of discharge of said liquid from each reservoir during the discharge phase of the operating cycle, and means for automatically adjusting the setting of the flow control valve depending on the deviation of said flow signal from a desired value, the improvement comprising:
said sensing means being sensitive to the mass of the liquid contained in the reservoir, said signal generating means generating a signal which is proportional to the mass of liquid in each reservoir and said flow signal generating means generating a signal which is proportional to the rate of mass discharge of said liquid from each reservoir during the discharge phase of the operating cycle, and further including means for memorizing said flow signal as existing immediately prior to the change over from one reservoir to the other, means for generating a substitute signal equal to the memorized signal and means for feeding that substitute signal to said comparing means for the period of the change over, thereby to maintain the flow control valve at a constant setting during the change over. - View Dependent Claims (11, 12, 13)
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14. In a process for the control of liquid flow at a desired low flow rate, which comprises:
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alternately filling and emptying two fixed reservoirs, the one reservoir being filled from a supply of the said liquid while the other is being emptied through a flow control valve to an outlet pipe, the flow of liquid to and from said reservoirs being automatically switched from one reservoir to the other as the liquid level in the reservoir being emptied sinks to a predetermined level, continuously monitoring the rate of discharge of the liquid from the reservoir being emptied; generating an electrical signal having a value proportional to the rate of discharge from the reservoir being emptied; utilizing the electrical signal for comparison with a demand signal representative of a desired flow rate; adjusting of the setting of the flow control valve in response to any difference between said first signal and said demand signal, thereby to increase or decrease the flow rate from the reservoir being emptied, as may be necessary to achieve equalization of said first signal and said demand signal; continuously monitoring said signal, and when said signal reaches a predetermined value, automatically switching over the discharge from one reservoir to the other; the improvement which comprises; memorizing the value of said signal as it exists immediately before said change over, generating a substitute signal equal in value to the memorized value, and substituting that substitute signal in place of the genuine signal for comparison with said demand signal during the period of change over.
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Specification