DE732520C - Device for the automatic formation of the sum of the information from several maximum recorders - Google Patents

Description

Device for the automatic formation of the sum of the details of several Maximum recorder-If for the settlement of the purchase or the delivery of electrical Electricity or the like at several transfer points, the sum of the locally measured values, z. B. the half-hour maximum values must be formed, so result extremely long, tedious and tedious evaluation work. every maximum value must be measured the sum is calculated.

The invention is based on the object of this tedious work to be carried out by an automatic device.

The method proposed below uses a summation circuit known from telemetry technology as shown in FIG. A stabilized voltage source i feeds three potentiometers 2, 2 ", Z '. The taps 3, 3", 3' * 'are fed via resistors 4, 4 and 4 "to a node, from which the total current is passed through a totalizer, which as recording device may be configured to flow. the currents J, J ', f' corresponding to the individual to be summed measurement values by the position of Potentiometerabgriffe 3, 3 'are represented 3'". Accordingly, the total current IJ corresponds to the respective sum of the measured values. The supply of all the potentiometer 2, 2, 2 'by a single voltage source i from is allowed provided the Widerstände4, 4, 4 # "are large compared to the potentiometer resistors A ratio of the resistances of about i. Io corresponds to the required accuracy values.

The task now is to automatically bring the taps 3, 3'2 3 "of the individual potentiometers into a position that corresponds to the respective value of the individual measured value.

For this purpose, a photoelectric arrangement is provided according to the invention, the on-everyone. A registration strip connects the peaks of the registration curve Curve or, in the case of step-by-step movement, the peaks of the registration curve are scanned and regulates a direct current corresponding to the ordinate value, which together with others in the same way regulated direct currents is fed to a summation device. It is assumed that the registration strips to be evaluated are synchronous are moved so that simultaneous measured values are always added up.

The arrangement for a measured value is described in more detail below: Fi-. 2 shows the photoelectric part of the scanning device schematically. The re - isrier strip 5 runs from a supply drum over the roll 6, the box 7 provided with a light gap and a further roll 8 onto an accumulation drum. The roller 8 is driven by a chain gear 9 that in turn is driven by a common shaft, not shown, to which the chain drives of the other similar apparatuses are also connected. The registration strip 5 shows the usual sawtooth-like curve io corresponding to the half-hourly maxima, for example. During the half-hourly measurement period, the deflection, which represents the integral of power over time, increases. After the registration period has expired, the deflection suddenly goes back to zero, which is followed by a further integration period.

In order to avoid unnecessary adjustments of the apparatus to be described, the maxima are expediently, i. H. thus the tips of the individual teeth of the registration curve before lodging the strip in the Meßwertapparatur, suitably by straight lines, draftsman! .sch interconnected and the beispielsiveise applied across the thus obtained curve i 1 1 iegende-surface 12 with black ink, so the share surface of the strip chart in a bright translucent (13) and a dark, non-translucent portion 12 tO. If the scanning device is now always set to the dividing line ii between the light and dark area by the automatic control, the evaluation of the recording strip or strips is carried out with a minimum of regular movements.

In principle, there would be the possibility, instead of the dividing line discussed above of the two areas the course of the registration curve itself, i.e. the sawtooth curve, to feel. Such a procedure would, however, mean that the Apparatus as a consequence and cause considerable wear and tear.

The recording strip 5 slides as a result of the drive by the roller 8 and the chain drive 9 over a light box 7, which has a window extending over the width of the recording strip in its upper surface. This window consists of an approximately 1 to 2 mm wide slot 14, under which a converging lens 1 5 can be attached if necessary. To achieve a uniform illumination of this slot, a ground glass 16 is used in the box below the slot. Lamps 17 are attached below the ground glass, which illuminate the slot evenly through the ground glass.

As a result of the division of the registration strip into one light and one The dark part becomes more intense light only in the light part of the registration strip can pass through the slot upwards.

Fig. 3 shows the light box in the plane of the slot in section. In the lower part of the light box 7, the lamps 17, the ground glass 16, the converging lens 15 can be seen. Above the slot there is a photocell in a cylindrical capsule 18. The bottom of the cylindrical capsule has a hole 20 about 1 mm in diameter through which light from the slot 14 can enter the photocell, provided that the photocell is located above the bright part of the registration strip. The capsule with the photocell is moved horizontally by a spindle 121 on slide rails (not shown), the spindle being driven via the intermediate gear: 22 by the motor 23. he follows.

The brush 3 of the potentiometer 2 is connected to the slide 24 carrying the photocell capsule iS. When the drive motor is running, the brush 3 is adjusted from left to right or vice versa, as a result of which different voltage values are tapped on the potentiometer. This potentioineter is fed by a stabilized Spantlungsquelle i. The further potentiometers 2, 2 ', 2 "are to be connected to the terminals e and d of the stabilized voltage source, depending on the number of measuring strips to be added (see FIG. I).

The carriage 24 has three with a, b. Terminals labeled c , of which terminals a and b are associated with the photocell and terminals c with the brush 3 . Terminal c is to be connected to terminal c, for example by a flexible cable, so that through the resistor R and the sum instrument -y 1 a current flows close to the respective potentiometer tap. The brushes of the other similarly designed devices are to be connected to terminals c, c., C4, c5 , etc., which results in a deflection corresponding to the sum of the partial currents in the sum instrument -y J.

The control of the motor adjusting the potentiometer tap: 23 is given by the arrangement according to FIG. The photocell ig, which is located in the capsule 18 of FIG. 3 , is connected to a direct voltage of, for example, 2: 2o volts via the terminals a and b and via the resistor circuit shown. From the clamp b . At the photocell, the grid -25 of an amplifier tube 26 is controlled via the resistor R, 3. The circuit works in such a way that when the photocell ig is fully illuminated, the grid of the amplifier tube: 26 blocks, whereas when the photocell is not illuminated, a current ip flows through the amplifier tube 26 and accordingly through the left coil of the control relay 27. The right coil of the control relay 27 has a current i, which can be set at the resistor: 28 and read on the measuring device 29, flowing through it.

If the photocell is exactly above the dividing line between the light and the dark area of the registration strip, a certain flux of light will hit the photocell and accordingly the amplifier tube will let a certain current i, - flow through the left coil of the control relay. The current value in the right coil of the control relay is regulated by the series resistor 28 so that the control relay is in equilibrium when the photocell is set above the dividing line. The correct current i can be determined, for example, by means of a calibration registration strip on which a straight line parallel to the zero line separates the light from the dark area. Since a certain measured value is assigned to this straight line, which corresponds to a known deflection in the sum instrument or in an instrument connected to terminals c, c., C., C., E5 , the current i., In the right coil of the control relay be changed until the corresponding instrument display is set by changing the photocell position under the influence of the motor and spindle drive. After this calibration has been carried out, the apparatus is ready for operation.

If the photocell is under the influence of the register strip movement from the dividing line into the light or dark area, the equilibrium of the control relay is disturbed as a result of the decrease, disappearance or increase of the current ip, since the current i, of the right coil remains unchanged. The tongue 3o of the control relay 27 will accordingly deflect to the right or left and cause the motor 23 of the spindle drive to rotate right or left. Since the highly sensitive control relay is generally not able to switch the armature current of the motor directly, according to Fie-. 4a intermediate relays 33 and 34 are provided, which control the armature current of the motor 23 via their contact sets 35 and 36 so that the motor changes the position of the photocell by turning clockwise or counterclockwise until it is again set to the dividing line between light and dark area is.

If the regulation takes place slowly, there is no overregulation, which can give rise to permanent and unpleasant oscillations. If the regulating speed is increased, the regulating device has to be fed back to prevent overregulation. According to FIG. 4, the feedback device consists of a capacitor resistor circuit which contains a capacitor 37 and a resistor 38 in series and is connected on the one hand to terminals c and d of the potentiometer (Fig. 3) and on the other hand at points C and D Wig. 4) is connected to the right coil of the control relay 27 .

The currents i, and ip are balanced in the control relay 27 when the photocell is located directly above the dividing line between the light and the dark register strip area. If the photocell moves into the light or dark area as a result of the registration strip, the motor starts to run to the right or left, i.e. it moves the photocell along the spindle to the right or left. Accordingly, a voltage change occurs at the potentiometer tap c in relation to the terminal d of the voltage source. A current flows through the capacitor 37 under the influence of the change in the potentiometer tap voltage over time which is superimposed on the Stromi, the right coil of the control relay and falsifies it to such an extent that the control is terminated so early that overregulation and thus fluctuations are avoided. The setting of the returning means takes place by means of the resistor 38 'to prevent the control relay 27 as well as the relays and contacts 33, 34, 35, 36, a control arrangement can be provided, .by Fig. 5 is illustrated. The control arrangement corresponds to the devices that have recently been used for the control of prime movers. The device has a control throttle 39 which, in the present case, has five primary windings, but only four of them are used. The amplifier tube 26 of FIG. 4 is connected to the winding AB. So it replaces the left coil of the control relay. The right coil of the control relay is replaced by the winding CD . The return device, - d. H. The capacitor resistor arrangement, Lii ', # - is connected to the "Wind-" 3- (', 38 ', 38 ", lung H, J. The winding E, F is used for compensation. If the photocell is not in the right place, so the currents in the windings C, D and A, B are not in equilibrium. The windings E, F and H, J are initially de-energized rectified (42), its: l #, 1) if at a resistor 43 results, together with the grid bias battery 44, the grid voltage of an amplifier tube 45, the anode current of which is fed to the excitation winding 46 of the direct current generator 47 of the Leonard Aguregate 48. The current flowing in the secondary winding or in the grid resistor 43 in the equilibrium state, in which the effects of the two windings A, B and C, D cancel each other out, is compensated by the grid bias battery so that the tube 45 does not initiate. If the two windings A, B and C, D are no longer in equilibrium, then such a voltage drop occurs in resistor 43. that the tube begins to emit and the excitation winding 46 of the generator -47 receives current. A second similar arrangement of the secondary side of the choke including the tubes is dimensioned so that the corresponding tube emits when, for example, the effect of the winding A, B outweighs the winding C, D , while the first arrangement then begins to work when the effect of winding t, D that of winding A, B predominates. As a result, the excitation winding of the generator 47 receives, depending on the predominance of one or the other influence (A. B or C, D '), an excitation current in one direction or the other, whereby the adjusting motor 23 in one direction or in the other Direction starts. The bridge circuit R "R. #, R3, R4 has the effect that a fine voltage occurs at the intermediate collector rail 49 - which corresponds to the internal EMF of the adjusting motor 23, i.e. its speed. This voltage is fed to the compensation winding E, F, which for the linearity of the primary and secondary Steuergröfle, d. h for the linear relationship between the difference between the influences of the coil A, B and C, D and Drelizahl of the adjusting motor 23, sor-t. the emf, d. li The voltage corresponding to the speed of the adjusting motor 23 is also fed to the capacitor resistor combination 37 ', 38', 38 " , which feeds the feedback current to the winding H, J. This arrangement allows a relay-free control of the adjusting motor 23, which among other things offers the advantage that the adjusting speed of the motor is not constant, but corresponds to the difference between the current regulated by the photocell and the current regulated by the resistor 28 (Fig. 5a ). The readjustment of the position of the #botozelle SUC-t here elastic than after Anorden N & N as shown in FIG. -I, also the Arr # b has the advantage order to overcome any initial resistance moment of the spindle drive immediately, since after start-up of the Tour adjustment motor the compensating influence of the winding E, F becomes effective.

Apparatus of the type described are required in a number, which corresponds to the number of summing values.

If the action # z #, v. Reactive powers are summed up, there are registration strips that show the course of the sum, values of active 13, between Show reactive power. The strips obtained in this way can each run through one of the apparatuses described and then hold, for example , a current i in branch C of FIG. 3 , which corresponds to the active power, and in branch C. a current i which may correspond to the reactive power. The total active power and total reactive power are therefore each represented by a proportional direct current. If two instruments with a square scale character, which are mechanically coupled to one another, are fed with the two direct currents, a total torque results that also gives the apparent power on a square scale via a corresponding pointer position. The device mentioned can be designed as a recording device and then logs the total apparent power accordingly. If you have a sufficient number of evaluation devices according to Fig. 2 to # 5 available, you can form the voice of the active powers and the reactive powers (X at the same time, thus two direct currents are obtained, which can be fed to the device mentioned with quadratic characteristics continuously, i.e. at the same time, the total active power # j total reactive power and total leg power- receives.

ZD One can avoid the recording of the curve connecting the maximum values - and the S.chwar7färbuir #, - of a part of the registration strip if only the sum of the maxima occurring at certain time intervals, e.g. B. So. the sum of the quarter-hourly maxima is to be formed. Then namely the registration strips can be moved step by step, the indexing always taking place in such a way that the largest ordinate of the individual parts of the sawtooth curve reaches the scanning device. Since the time segments in which switching must take place are the same, a stepping mechanism can be used to drive all the registration strips. In this case, the photocell merely determines whether it is located above the line representing the greatest ordinate on the registration strip or already outside this line. The photocell must therefore be shifted by the drive devices described after each movement of the recording strip so that it is exactly above the apex of a triangle of the sawtooth curve. This condition can be met by the specified circuits, since the photocell, if it is located above the apex of the triangle, is exposed to a certain exposure which under all circumstances deviates from the exposure which is present when the cell is above the Ordinate or outside the ordinate. In an arrangement of this type, however, it is advisable to make the slot in the light box 7 particularly narrow and thereby to limit the light beam passing through very narrowly. The synchronous switching of all registration strips can be effected by a stepping mechanism of the usual type.

Claims (2)

PATENT CLAIMS: i. Apparatus for automatically forming the sum of the ON gave several maximum Schreiber, characterized in that a photo-electric device is provided on - scans each recording strip a, the tips of the registration curve connecting curve or stepwise movement, the tips of the registration curve and a corresponding said ordinate DC regulates, which is fed to a totalizer together with other DC currents regulated in the same way. 2. Apparatus according to claim i, characterized in that the direct currents are set in a manner known per se by means of a potentiometer output and that the photocell control automatically makes the pick-up with the curve connecting the tips of the registration curve or with the tips of the registration curve to coincide . 3. Device according to claims i and: 2, characterized by such a design of the registration strips that the tips of the registration curve are connected by straight lines and the part of the registration strip lying on the other side of these lines is covered with dark color. 4. Device according to claims i to 3, characterized in that the recording strip (5) via a Lichtka most (7) runs, which in its side facing the recording strip extends over the width of the recording strip, optionally with a converging lens (15 ) provided with windows (14), above which in a capsule (18) - arranged photocell (ig) in the ordinate is displaceable. 5. Device according to claims i to 4, characterized in that a grinding brush (3) is connected to the photocell capsule, which moves on a grinding resistor (2) arranged in the ordinate direction and, through its respective position, the level of the d = summing device supplied lead current certainly. 6. Device according to claims i to 5, characterized in that the adjustment of the photocell capsule (8) and the sliding contact (3) is carried out by a motor (: 23) which is controlled by a control relay (: 27) which is under the action of two currents is controlled. 7. Device according to claims i to 6, characterized in that the one acting on the control relay (27) current is set by a resistor (28) and corresponds to that current which the photocell must deliver when set to the envelope, during the other current acting on the control relay is supplied by the photocell (ig) itself, possibly with the interposition of an amplifier (26) . 8. Device according to claims i to 7, characterized in that a circuit consisting of a capacitor (37) and a resistor (38) is provided for the return. G. Device according to claims i to 6, characterized in that a control throttle (39) with four primary and two secondary windings is provided for controlling the motor (23) , the primary windings of the control throttle partially (A, B and C, D) being the Replace control relay and partially (H, J and E, F -) serve for feedback and compensation. ok Device according to claims i to 6 and 9, characterized in that the two secondary windings of the control throttle per a Wechs * elstromquelle (41), a rectifier (42) and üIne tube (45) is connected such that one of the two tubes to emit limited, U when the equilibrium of the windings (A, B and C, D) corresponding to the control relay is disturbed in one sense or the other. ii. Device according to claims i to 6, 9 and io, characterized in, that the anode current of the respective emitting tube is used to feed the excitation winding of an auxiliary generator (47).