DE837884C - Measuring bridge - Google Patents

Description

Measuring bridge The present invention relates to an arrangement for electrical Measurement and / or registration of quantities that can be reproduced as variable impedances are. It makes it possible to have a display or trigger at an adjustable level To achieve measured value, so that the arrangement with advantage as a control member in automatic Control devices can be used.

To measure or use such an operational variable as Control means is usually a Wheatstone bridge that is so dimensioned is that their diagonal current can serve as a measure of the operational size. It is therefore possible to arrange a controller or a display device to trigger certain processes, when the diagonal current has reached a desired value. As an example of this the temperature control of the electric oven comes into question, where possible Switching off and switching on the power to its temperature within certain limits keep.

At the value at which the display or triggering should take place is however, it is advantageous that the diagonal current is zero, i.e. i.e. that the bridge is leveled is. The indicating member can e.g. B. a polarized relay or a transducer which immediately indicates a current, the direction of which depends on the magnitude of the deviation the size of the farm is determined by the desired value.

A disadvantage of the arrangements described is that a measurement the company size is not possible if the value at which the display starts follow should, must be adjustable. According to the invention, this disadvantage is eliminated by that the variable impedance term reproducing the given quantity as common branch is arranged in two bridge circuits and the diagonal display branch one bridge to measure the primary size and the diagonal branch of the other bridge is used to display the deviation of the primary variable from a previously set value, each bridge having current disconnection means arranged in it from different ones Share one and the same voltage is fed.

According to the invention, both the measurement and the display can be carried out simultaneously with sufficient accuracy by connecting two Wheatstone bridges take place, each of four bridge branches, a display branch and a feed branch exists and the bridges are connected so that they are from a common voltage source be fed and have two bridge branches in common. In one of the common Bridge branches are switched on with the variable to be measured impedance element. The indicator of one bridge is used to measure the size while the display device of the other bridge to display or trigger when a desired one Measured value is used.

To get both a measurement and an indication at the same time to be able to, according to the invention by special current disconnection means in each bridge different parts of the same voltage supplied to the bridges are used.

This can be done in such a way that the bridges are connected in parallel are fed with alternating current and through rectifier elements through the various Bridge branches of the one bridge only positive half-cycles of the alternating current and through which only negative half-periods are allowed to pass through the other bridge. In The branches common to the bridges are not separated.

In the case of direct current supply, the separation can be achieved by the arrangement of Vibrator contacts take place, which alternately the one and the other bridge Connect the DC voltage. If the bridges are connected to direct current, the separation can also be achieved by means of grid-controlled electron tubes arranged in the bridges take place, which are directed so that the bridges alternate from the pressed DC voltage are fed.

Embodiments of the invention are given below with reference to the Described drawing showing the application of the invention as a temperature controller. The purpose is to have a single temperature sensitive link on both an instrument readable temperature values as well as an impulse for a display or to get the trigger element at a certain adjustable value.

One can also imagine that the deviation from the set Value is used directly for continuous control. The sensitive limb expediently consists of a temperature-dependent resistor that is directly is located at the place where the temperature is to be measured. This Resistance is included as a common branch in two Wheatstone bridges, each of which has fixed and variable resistances and those mentioned Contains power disconnection assemblies.

In the drawing, Fig. 1 shows a diagram showing the use the measuring arrangement, Fig. 2 shows an alternating current-fed arrangement with a common bridge branch and with flow control valves in the other branches, Fig. 3 a with alternating current fed arrangement with two common bridge branches and with Stromy valves in the other branches, FIG. 4 shows an arrangement fed with direct current with vibrator contacts, FIG. 5 shows a modified arrangement according to FIGS. 4 and 6 shows an alternating current-fed arrangement with two common bridge branches and with grid-controlled electron tubes in the other branches.

In the principle diagram in FIG. I, the ordinate i denotes the current intensity in one of the diagonal branches of the bridges and the abscissa x that of the temperature sensitive Term perceived measurand. The curve i1 corresponds to the current strength in the diagonal branch the one bridge and can be determined by a corresponding dimensioning of the associated Bridge elements get an appropriate shape and location in the diagram.

Thus, according to FIG. I, the output value can be selected so that it is with coincides with the origin of the coordinates. The curve i2 gives the current in the diagonal branch of the other bridges, and the elements of this bridge are advantageous chosen so that the curve i2 runs parallel to the curve i1. By change of the elements of this bridge, the curve f2 can be shifted in relation to the curve will. This ratio is used in order for the measured value on the curve i1 can be read and in which the arrangement indicate or trigger a certain process is to adjust the curve j2 so that it goes through zero at this value. This The measured value is indicated in the figure by the dashed line. The zero crossing of the current i2 is used to control a regulating or indicating element, so that this is immediate for the deviation of the primary variable from one set in advance Value responds. The current i2 can then be used to operate a polarized relay, a transducer, d. H. a choke coil that can be pre-magnetized with direct current, or other links can be used.

In Fig. 2, I denotes a temperature-dependent resistor, the is located at the place where the temperature is to be measured. This resistance serves as a common branch in two Wheatstone bridges, each of which from fixed resistors 2, 3 or 4, 5 and an adjustable resistor 6 or 7 exist. The bridges are connected in parallel and are connected to the Poland 8 connected to an AC power source. In the branches of the bridge, with the exception of the the resistor I containing, arranged rectified flow control valves g and 10, respectively, the valves g of one bridge being opposite to the valves 10 of the other bridge are directed. The flow control valves are advantageously ordinary dry rectifiers. In one bridge, which consists of branches I, 2, 3 and 6, the a half cycle of the feeding alternating current and in the other bridge that off the elements I, 7, 5 and 4, the second half period is allowed to pass.

In the diagonal branch of the first-mentioned bridge is a measuring instrument 1 1 arranged, the deflection of the temperature-dependent resistance of the member 1 is dependent. Its current corresponds to the curve in FIG. 1 and its zero value can be adjusted by means of the resistor 6. The other bridge has in that corresponding branch connection terminals I2 for the connection of indicating or triggering Devices. The current through this branch corresponds to curve i2 in FIG Bridge elements are chosen so that the curve i2 is mainly parallel to the Curve i1 runs. Their position can be shifted by changing the resistor 7 whose setting member is expediently linked to one of the values on the instrument 1 1 corresponding scale is provided.

In Fig. 3 is a modified arrangement for the same measurement purpose shown, which is also connected to the poles 8 of an AC power source.

The bridges have two common branches I and I4, of which the first the said temperature sensitive resistor and the second the fixed one Resistor 14 includes. In the branch of one bridge the resistor I is switched on, in the other the fixed resistor 2 and the flow control valve 9, in the third the variable resistor 13 and the flow valve cooperating with the first g, in the fourth branch the resistor 14 is switched on. The diagonal branch of the Bridge is designated 1 1 and has the same task that is given in FIG. The other bridge also contains resistor I, resistor 14 and on the variable resistor 15 and the flow valve I0, which is opposite to Valve 9 is directed, furthermore the fixed resistor 4 and the corresponding flow valve 10. The branch of this bridge with terminals 12 is as in 'Fig. 2 described arranged. In this embodiment, the number of required resistance and rectifier elements reduced in relation to the arrangement in FIG. 2.

4 and 5 show bridge circuits, which with the terminals I6 are connected to a DC power source. The bridge branches exist like beforehand from elements I, 2, 13 and 14 or I, I4, I5 and 4 and in the diagonal branches instrument II or terminals I2 are switched on. In Fig. 4 is the one Pole I6 connected to resistor I and the other pole to a vibrator contact I7, which is shown schematically without a drive arrangement and which allows the one or alternately connect the other bridge to the DC voltage. Another Vibratorkofftakt I8 is in the common connection point for the diagonal branches the bridge arranged. The contacts I7 and I8 are controlled synchronously what by the dashed line connecting their movable members is indicated.

In Fig. 5, the modification is shown after which the poles I6 to the vibrator contacts 19 arranged at the outer ends of the resistors 1 and 14, respectively and 20 are connected. The contacts switch on the bridges synchronously, and the Interconnection achieved in this way is indicated by the dashed line.

In Fig. 6 a modification of the arrangement according to Fig. 5 is shown, after which the power is separated with the help of grid-controlled electron tubes. The bridge elements are as before with I, 2, I3, I4 and II or with I, I4, I5, 4 and I2. In the branch with the resistor 2 there is an electron tube 21 and in the branch with the resistor 13 an electron tube 22 is switched on, namely, the first tube is connected in series with the second. In corresponding Way, the electron tubes 23 and 24 are arranged in the other bridge, wherein the pipe 23 is connected to the pipe 21 and the pipe 24 is connected to the pipe 22 opposite. the Grids of the tubes are over the secondary winding in transformers 27 and 28 to the cathodes and the primary windings are parallel to an alternating current source connected at 25. The anode voltage of the tube is taken from the common direct current source Taken at 26. In an interval the tubes 21 and 22 become conductive and the Pipes 23 and 24 blocking, and vice versa, whereby a mode of operation accordingly the arrangement of Fig. 5 is obtained.

Within the scope of the invention it is of course possible that specified alternating current circuits by the arrangement of corresponding differential transformer circuits to be changed, since these types of circuits are equivalent.

The transformer contains, for example, one primary and two Secondary windings, at the midpoints of the latter, are the differential branches connected, one of which is the measuring and the other the indicating member contains. One end of the common, with is attached to the secondary windings connected to the measurable variable variable impedance element, while the other end is connected to a branch containing the voting element, d. H. an adjustable one Resistance, contains.

Claims (4)

PATENT CLAIMS: I. Arrangement for electrical measurement and / or registration of sizes, which are reproducible as variable impedances, with display or draw at a certain adjustable measured value, characterized in that said impedance is switched on in the common branch of two bridge circuits is and the diagonal display branch of the one for measuring a primary variable and the diagonal Display branch of the other bridge to display the deviation of the primary variable from one serve in the preset value, and each bridge over in the bridge branches arranged current disconnection means of different parts of one and the same voltage is gelkist. 2. Arrangement according to claim l, characterized in that the bridges via flow control valves of various types that are arranged in the non-common bridge branches Half periods of the same alternating current are fed. 3. Arrangement according to claim 1, characterized in that in two common points of the bridges fed with direct current vibrator contacts arranged are. 4. Arrangement according to claim 1, characterized in that in each The bridges fed by direct current are arranged with grid-controlled electron tubes are.