DD227527A1 - CIRCUIT ARRANGEMENT FOR MEASURING FLOW SPEEDS - Google Patents

Abstract

Circuit arrangement for measuring the flow velocities of moving gases or liquids. The object of the invention is to minimize the material outlay when determining flow velocities. The task is to electronically determine the flow velocity of moving media. The object is achieved by connecting a resistive element consisting of a cold conductor material with a resistive measuring resistor in series to a voltage source and evaluating the voltage drop across the measuring resistor as a measure of the current flow rate. This voltage drop changes its value as a function of the level of cooling of the sensor element, which is determined by the flow velocity. As a field of application for the invention are labormaessige and industrial measuring points for flow velocities of liquids and gases and controllers in question, which process the flow rate as a parameter. A preferred application is with an automatic vacuum cleaner in which the engine speed is set as a function of the flow rate. Fig. 1

Description

Title of the invention

Circuit arrangement for measuring flow velocities

Field of application of the invention

The invention relates to the electronic detection of flow velocities of moving gases or liquids

Characteristic of the known technical solutions Methods and devices for measuring flow velocities are known. One known method relies on the application of temperature-dependent resistance. the and dependent therefrom measurement of the currents or voltages in the network, in which the temperature-dependent resistors are arranged, wherein the temperature-dependent resistors determines a temperature difference along a distance traveled by the flowing medium distance. The flowing medium is heated up in front of the measuring section. An operating according to this method apparatus for the thermal measurement of flow velocities is described in DE-OS 2934 565.

The measuring path to be passed from the flowing medium is limited by two temperature sensors, which are designed either as a cold or as a thermistor. A arranged at a certain distance from the measuring section heating element, which consists of the same material as the temperature sensor used, heats the flowing

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Medium periodically. The temperature sensor is the temporal phase shift of the heating of the flowing medium according to the periodic heating determined by the heated medium causes a change in resistance in the temperature sensors whose temporal offset in conjunction with the known length of the test section allows the conclusion on the flow rate of the medium by the resistance change is evaluated electronically.

A disadvantage of the device described is primarily that three hot or cold element elements are required, which have a significant energy consumption. Another disadvantage is the considerable space required, since the measuring path must have a minimum length in order to achieve meaningful results in determining the flow velocity can *

Object of the invention

The invention aims to reduce the material cost in the determination of flow rates to a 'iiünimum-. ¹

Explanation of the essence of the invention

The object of the invention is to electronically determine the flow velocity of moving media by means of a circuit arrangement.

This object is achieved in that is used as a sensor for the flow velocity of moving media consisting of a cold conductor material and immersed in the moving medium sensor element use, which is formed as Y / iderstandselement with positive temperature characteristic and connected to a voltage source. With the sensor element is a

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Ohmic resistor connected in series. The terminals of the ohmic resistance, that on the one hand, the connection point between the ohmic resistance and the sensor element and on the other hand, the connection point of the ohmic resistance with one of the terminals of the voltage source, form the output terminals of the circuit arrangement.

An advantageous embodiment, the invention undergoes the fact that as a voltage source, an AC voltage source, preferably the public Hetz serves.

To improve the operation in AC operation of the circuit arrangement, a rectifier is added, which is arranged between the connection point of the ohmic resistance and the sensor element and the relevant output terminal.

A continuation of the improvement in the Y / echselspannungsbetrieb is that between the output terminals of the circuit arrangement, a capacitor is connected.

The current driven by the voltage source causes a heating of the sensor element. Due to the temperature characteristic of the sensor element heating is stopped when the determined by the material properties transition temperature is reached. At the same time, the current is throttled to a minimum value. This minimum value of the current is maintained as long as the sensor element is not exposed to cooling.

However, if the medium in which the sensor element is immersed is in motion, it steadily absorbs a proportion of the heat energy from the heated sensor element. The proportion of the resulting heat energy thus emitted by the sensor element is proportional to the flow velocity of the medium. However, since the heat energy emitted causes a cooling of the sensor element, the larger the current, the greater the current intensity due to the temperature and resistance characteristic inherent in the sensor element

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Cooling, so also the greater the flow velocity of the medium. The current flowing through the sensor element and therefore also through the ohmic resistor causes a voltage drop proportional to the current intensity across the ohmic resistor whose value is constant, which can easily be evaluated by suitable and known means. The. The magnitude of the voltage drop across the ohmic resistance is thus proportional to the flow rate of the medium. If the series connection of sensor element and ohmic resistance at an AC voltage source, there is a rectification and smoothing of the voltage drop across the ohmic resistance, since the DC voltage value thus obtained can be easily fed to an electronic evaluation. This simple addition to the actual measuring arrangement makes it possible to use as a voltage source the public Hetz can be used, so that the circuit arrangement a wide range of applications is opened, especially as regards the sensor element and the Ohmschen Y / iderstands to the value of Yersorgungsspannung no requirements are made.

The field of application extends from laboratory measuring arrangements for the flow velocity of liquids and gases over arrangements in technical processes to household appliances such as vacuum cleaners, in which an automatic speed control can take place by evaluating the flow rate of the suction air. In particular, the advantage becomes clear that the circuit arrangement according to the invention can be connected directly to the AC mains voltage.

embodiment

The invention will be described below with reference to a drawing

a preferred Ausftihrungsbeispiels closer. explained.

The drawing shows in

Pig. 1 shows a circuit arrangement according to the invention and in FIG

Pig. 2 the application of the circuit arrangement according to Pig. 1 in a circuit arrangement for speed control of motor-blower units.

The one in Pig. 1 circuit arrangement according to the invention can be regarded as a quadrupole, whose input terminals are formed by the terminals 1 and 2 of the voltage source and the output terminals of the terminals 3 and 4 of the Meßsignalausgangs. Between the terminals 1 and 2 of the voltage source is a series circuit consisting of a sensor element 5 and a measuring resistor 6. The sensor element 5 is designed as a resistive element mitpositiver temperature characteristic and the measuring resistor 6 as an ohmic resistance. Due to the connection of the described series connection to an AC voltage source with the terminals 1 and 2, a series circuit consisting of a rectifier diode 7 and a poled capacitor 8 is connected in parallel with the measuring resistor 6. The capacitor 8 lies parallel to the output terminals 3 and 4. The sensor element 5 is located in the flow region of the medium whose flow velocity is to be determined. The voltage applied to terminals 1 and 2 drives a current flowing through the series connection of sensor element 5 and measuring resistor 6. The current intensity depends on the resistance value of the sensor element 5, which changes as a puncture of the temperature. At the maximum temperature, which corresponds to the transition temperature of the PTC thermistor material used for the sensor element 5, the resistance of the sensor element 5 assumes its maximum

 worth. This pail occurs when the sensor element 5 is heated by the flowing stream and no cooling takes place. The possible due to the large resistance of Sensoreleinentes 5 current flow is low or goes against a minimum value, so that on the measuring resistor 6, a minimal voltage drop. Due to the cooling of the sensor element 5, its resistance decreases .ab so that the current can increase and the voltage drop across the measuring resistor 6 is also greater. However, the cooling takes place by the medium flowing. The stronger the flow or the greater the flow velocity of the medium, the stronger the cooling effect on the sensor element 5. This means that with increasing flow velocity of the medium the resistance of the sensor element The voltage drop across the measuring resistor 6 is thus a direct measure of the flow rate of the medium.

Due to the voltage applied to the terminals 1 and 2 AC voltage is carried out for the purpose of better readability by means of parallel to the measuring resistor β series arrangement of rectifier diode 7 and poled capacitor 8, a rectification and smoothing of the drop across the measuring resistor 6 voltage, so that at the terminals 3 and 4 one of the flow velocity of the medium proportional Meßgleichspannung ailiegt ,.

In Pig. 2 is shown, as the basis of Pig. 1 explained circuit arrangement according to the invention in a circuit arrangement for speed control of motor - blower - units, such as for vacuum cleaners, comes to the application.

To the mains voltage terminals 1 and 2 is a series circuit of a switch 15 and a motor-blower unit

and a speed controller 13 connected. The circuit arrangement according to the invention is similar to Figo connected to the terminals 1 and 2 of the mains voltage, the Ausgangsklemms4 connected directly to the input terminal 2 and the sensor element 5 between the switch 15 and the motor - blower unit 14 are connected to the supply voltage. The sensor element 5 is located in the region of the working air flow, advantageously in front of the intake opening of the motor-fan unit. The inverting input is connected to the output terminal 3 via a resistor 9 and the non-inverting input of an operational amplifier 12 to the output terminals via a resistor 10. The output of the operational amplifier 12 is connected to the control input of the speed controller 13 and fed back via a resistor to the inverting input. The resistors 9 10 and 11 are dimensioned such that the operational amplifier 12 operates as a proportional element.

Between the terminals 3 and 4, the measuring voltage is applied, which arises according to the explanation of Fig. 1. This measuring voltage is in direct proportion to the speed of the working air flow. The flow rate should be kept at a constant value in the preferred embodiment. Accordingly, the number of revolutions of the motor-blower unit 14 must be controlled according to the conditions of the flow, such as different attachment nozzles of vacuum cleaners. The measuring voltage is detected by the operational amplifier 12 and at its output a voltage value that affects the speed controller to the effect that at a comparison to a setpoint measuring voltage, the speed of the motor fan unit H throttled and at a comparison with the setpoint small measuring voltage, the speed of

Motor - fan - unit 14 is increased.

The speed setting as a puncture of the flow velocity of the working air flow is carried out continuously analog.

In the context of the invention, it is of course possible to process the measuring voltage in any other way, for example converted into pulses, wherein the modulation of the amplitude, the pulse width or the repetition frequency is evaluated.

Claims (4)

<3 invention claim 1. Circuit arrangement for measuring flow velocities of moving media with a consisting of PTC thermistor and immersed in the moving medium sensor element, characterized in that the sensor element (5) formed as a resistive element with positive temperature characteristic and to a voltage source (1, 2), so that the current driven by the applied voltage heats the sensor element (5), whereas the moving medium causes cooling of the sensor element (5), an ohmic resistor (6) is connected in series with the sensor element (5) and the one above the ohmic resistance (6) resulting voltage drop is used as an output signal. 2. Circuit arrangement according to item 1, characterized in that the series connection of sensor element (5) and ohmic resistor (6) to an AC voltage source (1, 2) is connected. 3. Circuit arrangement according to the points 1 and 2, characterized in that between the connection point of sensor element (5) and ohmic resistance (6) and a first terminal (3) of the output, a rectifier (7) is arranged. ACT 4. Circuit arrangement according to the points 1 to 3, characterized in that between the Ausgangsklemmeη (3, 4), a capacitor (8) is connected. - Hierau 1 sheet drawing -_