FR2527699A1 - METHOD FOR DETERMINING THE RUNNING FREQUENCY OF PISTON PUMPS - Google Patents

Abstract

The invention relates to a method for measuring the stroke frequency of piston pumps, in particular of controlled-volume pumps. The aim of the invention consists in increasing the accuracy of measurement of the piston stroke frequency. It is the object of the invention to develop a method for measuring the stroke frequency of piston pumps without measuring the driving speed. The object is achieved when the stroke frequency is determined by measuring the temporal sequence of the stroke counting pulses and subsequent calculation by means of an integrated computing circuit.

Description

 The invention relates to a method for determining the stroke frequency of piston pumps, in particular dosing pumps.

 The piston stroke frequency is a regulating variable for the volumetric flow rate of metering pumps, the definition of which is the number of piston strokes per unit of time.

 The frequency of piston strokes results from the number of drive revolutions multiplied by means of a worm gear. By varying the number of drive turns, the frequency of piston strokes is changed.

 For metering pumps, DC motors, adjustable controls with three-phase motor and PIV drives with three-phase motor are used as variable speed controls. The measurement of the piston stroke frequency is carried out using eddy current tachometers, synchronous tachometers as well as precision tachogenerators. For the display, mechanical-analog or electro-analog devices are used. The basis of known methods for measuring the piston stroke frequency is therefore the measurement of the number of drive turns.

 It is an object of the invention to increase the precision of determining the frequency of the piston strokes.

 This result is obtained by the invention thanks to the fact that the frequency of piston strokes is determined by measuring the succession over time of the stroke counting pulses and then performing the calculation by means of an integrated calculation circuit.

 According to another remarkable point characteristic of the invention, preselected constants are introduced into the calculation to normalize the range of values displayed.

 Finally, the invention is also characterized in that a normalization of the range of displayed values is obtained by varying the reference frequency.

The characteristics and advantages of the invention will emerge from the description which follows, by way of example, with reference to the appended drawing in which
- Figure 1 is a block diagram of the measurement method with variation of the reference frequency
- Figure 2 is a functional diagram corresponding to Figure i
- Figure 3 is a block diagram of the measurement method with the introduction of constants into the calculation
- Figure 4 is a functional diagram corresponding to Figure 3.

 The process with varying the comparison frequency to normalize the stroke frequency works as follows (Figure 1).

 Piston counting pulses x are converted in input circuit 1 into short pulses X1 and serve as input signals for gate circuit 2 as well as for sequential control 10.

 The gate circuit 2 transmits in the form of a signal x4 to the counter 5 the train of reference frequency pulses of the frequency generator 3, the frequency value of which can be adjusted using a programmer 4.

 At each stroke counting pulse x, the counter content x5 is introduced into memory 6 by the signal x2 and the counter 5 is activated for the next measurement by the reset pulse x3.

 While the calculation operation x6n takes place, the content of the memory is introduced into the calculator 7.

The result of the calculation is transmitted to display 9 by the signal x8.

 The following operations are performed by the calculator.

x61: deletion of the working memory of the cal circuit
ass x62: introduction of the number (1)
X63: introduction of the calculation operation (division) x64: reading of the contents of the memory 6 x65: -execUtion of the calculation operation by calling the result
Standard stroke frequency values which were measured during each piston stroke are then displayed.

 The method represented in FIG. 3 works by introducing the calculation constant x7 coming from the preset memory 8, and a fixed reference frequency. The methods differ in the way in which the operations of the calculator are carried out.

Claims (3)

 1. Method for determining the frequency of piston strokes of piston pumps, in particular dosing pumps, characterized in that the frequency of piston strokes is determined by measuring the succession in time of the pulses of counting piston strokes then performing the calculation by means of an integrated calculation circuit.  2. Method according to claim 1, characterized in that preselected constants are introduced into the calculation to normalize the range of values displayed.  3. Method according to claim 1, characterized in that a normalization of the range of displayed values is obtained by varying the reference frequency.