DE688654C - also maximum by means of the usual continuous counter - Google Patents

Description

Method and device for determining the maximum consumption by means of Usual continuous meter A meter for electricity, gas, water or the like. can be used in place of a simple counter or other simple display device also drive a maximum work with a pointer, writing or printing device. These Devices, the details of which are used as a basis for the electricity billing, or serve as a basis for the statistics, but always provide an additional, usually undesirable load on the meter, even if it is indirectly caused by the meter a contactor or a follow-up control are operated, because then at least the contactor or the control unit of the follow-up control loads the counter. Also, by installing such apparatus in the meter housing, the meter construction becomes more involved; there is also special storage for the various embodiments such counter required.

The invention has for its object the intended for such uses To relieve the counter of any additional work, so that -it's just a simple one Needs to drive display device. The invention implies a common continuous Counter, which is a device for calculating the difference between successive counter positions controls with the interposition of a registration strip, ahead.

According to the invention, the counters are set at certain time intervals recorded by optical means. The immediate or detention on a Film strips generated images of the counter readings control by means of radiation-sensitive Means a device for displaying the difference between successive counter positions in such a way that a device, which in accordance with the recorded counter positions is incremented from one to the next, a recorder with interruptions drives and the registration device in its initial position during each interruption resets or during each interruption to the next following difference between successive counter positions are incremented, with a maximum pointer, a printing device or the like. Is provided.

The invention is based on the examples shown in the drawing are explained in more detail.

Fig. I shows a simple counter in which as a display means Arms of the pointer shafts black disks attached eccentrically serve, which are moved in front of a white background and one controlled by a clock Camera.

Fig. 2 shows part of a filmstrip with images of the black ones Slices as negative.

3 shows a schematic representation of an evaluation apparatus for the film strip with drawn electrical circuits.

4 shows another embodiment of the evaluation apparatus.

Fig.5 to io show combinations of light and dark areas Representation of the numerical values on the cover of number rollers.

Fig. I i shows a different way of representing the numerical values with Help light and dark areas.

Figs. 12 and 13 show images of Figs. 12 and 13 captured on a filmstrip Counter readings using the representations shown in FIGS. 5 to i i for the digit values.

The counter Z (Fig. I) has instead of the known dials with pointers moved by the counter as display means on the arms of the pointer shafts eccentrically fortified, black-colored disks i, io, against a white background move. Their position on the circle they have described during one orbit indicates the counter position.

With the help of a film camera P, in which the shutter and the switching device for the film strip triggered by a clockwork U, for example, every quarter of an hour window 3 of the counter is recorded. Fig.2 shows a piece of the The film obtained in this way shows the images a, 2o of the disks i, io light on dark Basically contains. The roll 6 with the finished film 4 is changed to that shown in FIG Evaluation device used. The roller 6 is provided with a drive device coupled, which is driven by a cord 8 from the toothed conveyor roller, which in turn receives its drive from a motor 9.

The image strip runs across the front wall i i of a darkroom 12, which includes a photoelectric cell 13 and a lens 14. In the front wall i i are transparent diaphragm panels 15, 16 with the black images 17, 18 of the Discs i, io rotatably mounted. The parts 15 to 18 correspond in their arrangement the display disks i, io of the counter Z (Fig. i). The two disks 15, 16 are rotated by a transmission gear from a motor i9, which also by means of the Gears 21 and 22 drive a pointer a3, which in turn point at a maximum 24 (drag pointer) interacts. A spring 25 seeks through a toothed gear 26 the To keep pointer 23 in contact with the stationary 1nschlag 27. The wheel 22 is on tlem armature 28 of a clutch magnet 29 -supported, which, when energized, disengages from gear 21.

On the shaft 3o driven by the motor 9 sit three control disks 31 to 33, which control switches 34 to 36. Parallel to the switch 35 is a from Magnet 37 controlled relay 38. The magnet 37 also controls a switch 39 for the coupling magnet 29. The photoelectric cell 13 lies over the winding of the relay 40 and via the switch 34 to the power source 41. You can through the Switch 42 controlled by relay 40 can be bridged. The same relay 40 controls also switch 43, which is in series with motor i9 and your switch 36, and the switch 44 for the magnet 37.

45 is a lamp that shines through the image strip 4, the Discs 15, 16 and the lens 14 sends to the photoelectric cell.

The evaluation device works as follows: As long as the photoelectric Cell 13 is hit by light, the relay 4o leads none or only one small current that it does not respond. The photoelectric cell 13 is to that Purpose in a corresponding manner with an amplifier or a relay o. The like. Connected. If, on the other hand, the cell 13 is not hit by the light from the lamp 45, then this is the case Relay 4o so much current that it responds. Let there be a picture of the picture strip are located above the diaphragm disks 15, 16 according to FIG. As long as the pictures 17, 18 of the The aperture panes do not cover the white areas 2, 2o of the image strip the cell 13 through this light, the relay 4o is then in the drawn Position, d. H. the motor i9 is switched on via the switches 43 and 36. He turns the disks 15, 16 continue until the aperture images 17 and 18 with the Cover film strip images 2 and 2o. At this moment the cell 13 gets practically no more light, the relay 40 responds, activates the motor i9 by opening the switch 43 stops, a holding circuit is established by means of switch 42 and switches the relay 37 is switched on by means of the switch 44. The relay 37 switches by means of the switch 38 the motor 9 for the image strip 4, which shortly afterwards by means of the Control disk 32 and the switch 35 closes a holding circuit. At the same Time is through the switch 34 of the holding circuit of the relay 40 and the circuit the cell 13 interrupted, the Relay 4o therefore returns to its starting position back, and thus the relay 37 is also de-energized again. Thereby the switch 38 open. However, this is initially ineffective for the motor 9, since the circuit still exists via switch 35. The image strip 4 is moved to the next image, until the section of the control disk 32 comes into the area of the switch 35 and switches off the motor 9 by opening it. At the same time be doing it again the switches 34 and 36 closed and thus the motor i9 started, which the Aperture disks 15, 16 with respect to the new image of the strip 4 rotates.

So it switches the optical adjustment device after completion Adjustment automatically switches the feed device and the feed device after the feed has been completed, the adjustment device automatically switches on again.

The effect of the previously disregarded switch 39 is following: As long as the disks 15, 16 are readjusted, a corresponding Amount via the coupling 21, 22 of the pointer 23 and the drag pointer 24 in the direction of the arrow turned. If the adjustment is finished, then, as mentioned above, the relay 37 switched on and thereby the switch 39 closed. This gives the clutch magnet 29 current and disengages wheels 21 and 22. Under the action of the spring 25 returns then the pointer 23 to the stop 27 back, while the drag pointer 24 in the last Position of the pointer 23 stops. As a result of the de-energization of the relay 40 was also the relay 37 has been de-energized and the switch 39 has been opened again, and this becomes the result Maximum work of the known to the wheels 21 and 22 re-engaged.

After the image advance, the switch 36 switches the motor i9 again one, and this rotates again the pointer 23 from its zero position by one of the position difference consecutive images corresponding amount in the direction of the arrow. This amount corresponds to the consumption within a recording interval of the camera P. Was this Consumption is greater than that of the previous interval, so the drag pointer 24 further adjusted by a piece corresponding to the excess, etc. If the whole Image strip 4 has run through the evaluation device, then the drag pointer shows 24, which remained in the position corresponding to the greatest deflection of the pointer 23 is the maximum consumption of a registration interval.

The pointers 23 and 24 work when evaluating the image strip 4 that is exactly the same as Instead of this display device, known registration devices can also be used are used, the power consumption within the individual registration intervals allow to hold on.

Fig. 4 shows another embodiment of the optical adjustment device, those with two sets 15, 16 and i5o, 160 of diaphragm discs and two photoelectric Cells works. The first sentence is followed by a first cell on the one, the second Set of the second cell in each case to the subsequent image of the strip 4. The orifice plate sets drive the wheels 4-7, 48 of a differential gear, the third wheel 49 of which drives the maximum pointer.

The film strip feed and the turning of the discs or one both can also be done by hand.

The image strip 4 can be dispensed with if the images of the display panes are used i, io by a projection device directly onto the diaphragm panes 15, 16 throws or if you iund the diaphragm discs immediately in front of the indicator discs io on the counter window. The Bleenden discs can be periodically replaced by a Adjust optical adjustment device, similar to Fig. 3. The film strip feeder is then omitted, and in its place the clock P must then control the contacts 34, 36 take over. Instead of an optical adjustment device, one can also use one use optical scanning device by z. B. the indicating parts of the Forms counter as display roles, which are preferably advanced jumping and have ten rows of four fields on their circumference, which are known in Way to be colored black or white according to a combination system and so the Represent basic numbers. If z. B. the combination system based on Powers of two is formed, then, for example, those in FIG. 5 result to io shown images of the numbers o-5. The pictures of the numbers 6-9 are created then by analogous continuation of the rule.

In the position o (Fig. 5) only the white areas of the display parts are visible. In position i (Fig. 6) the last surface is black. At the position 2 (Fig. 7) only the penultimate digit is black. At position 3 (Fig. 8) are the last two areas black (1 -1- 2 = 3) '. At position 4 (Fig. 9) is only the second surface black, in position 5 (Fig. 10) the second and the last Area (4 --E- 1 = 5). These surfaces or their projections or photograms of the same can now be used one after the other with a light cell or at the same time with four light cells are scanned. The light pulses are then generated in the cell or cells converted into current pulses, which are used in a known manner to control registration devices to serve.

The counter rollers can, as Fig. I i shows in the figure, also have stepped black and white surfaces. It then results from the periodic Photograph the counter a picture strip according to FIG. 12, its black-and-white areas again scanned by an optical device controlling a register can be. As FIG. 13 shows, the black-and-white areas can also be broken down into individual ones Surface elements are subdivided. In this case, on the scope of the counter rolls successively i, 2, 3 etc. dots attached. When scanning the optical device there are then as many current pulses as there are points. The punch card technology offers numerous means that adapt to the control by photoelectric Cells allow the evaluation of such display images.

It may be advisable to use the display parts of the counters before scanning or photographing by means of notches and alignment strips from the respective To bring intermediate position into the next main position. Are z. B. on the counter rollers in sequence i, 2 etc. points are attached, then one is in front scanning or photographing. Align the rollers in such a way that the The first row of dots lies in the center of the image.

The optical scanning device can the individual parts of her controlled registration device independently in the the black and white images bring appropriate positions. Should the differences be for the purpose of determining the maximum consecutive counter settings are determined, the at Calculating machines usual gears are used.

The advantage of the invention is readily apparent from the comparison with the previous maximum counters. With these meters, a registration part is periodically z. B. every half hour, removed by the counter from its starting position and decoupled from the meter at the end of the registration period and returned to its original position. The deflection of the registration part becomes greater the greater the inside consumption during the relevant registration period. You can use the registration part Arrange a split-seconds pointer that stops in the position with the greatest deflection, but then at the end of a billing section cannot determine when this Consumption maximum has occurred. So far it has always been such statements It is necessary to write down or print out the deflections of the registration section. By the writing or printing device but the counter is so heavily loaded that its Measurement accuracy suffers. The same applies to the loading of a counter through impulses of the registering unit. The invention results in a far-reaching one Discharge it counter; the periodically moving registration part and its drive fall away. The counter only receives a continuous counter, the status of which is in certain Time intervals is recorded by optical means. These recordings become then according to time and size in an apparatus completely independent of the meter sought maxima determined. It is particularly advantageous that this determination device can be used in common with numerous other meters. So you don't need to as before, for each counter that is to determine the maxima according to time and size, to provide a special maximum work with the registration device, but one can essentially use the usual counters and the through. optical recording means periodically recorded counter readings by a single and independent evaluation device examine from a statistical point of view.

Claims (7)

PATENT CLAIMS: i. Method for determining the maximum consumption by means of conventional continuous counters which control a device for forming the difference between successive counter readings with the interposition of a registration strip, characterized in that the counter readings at certain time intervals by optical means (e.g. 13 to 18, 45, Fi, g.3) are read and the images (2, 2o, Fig. 2) of the counter positions (i, io, Fig. i) generated directly or while holding -'- on a film strip (q.) by means (13 to 1.8 ) control a device (21 to 29) for displaying the difference between successive counter positions in such a way that a device (15 to i9) which is incremented from one to the next according to the recorded counter positions, a registration device (23, 2,4 , 27) with interruptions (releasable coupling 2i, 22) drives and the registration device (23, 2q., 27) returned to its starting position during each interruption tellt or is incremented during each interruption to the next difference between successive counter positions, it being provided with a maximum indicator (24), a printing device or the like. 2. Apparatus for performing the method according to claim i, in which on the counter disks Visually clearly protruding brands of simple form are attached through their position in their trajectory or the position through their mutual position of the counter, characterized in that an image throwing device (45) an image of the marks (2, 2o) on the radiation-sensitive scanning device (i3 to i8) throws and has diaphragms (15, 16) with cutouts (17, 18) in the beam path, which, depending on the visual impact of the brands, have their positive or negative form and a drive (1g) for the diaphragms (15, 16) is provided, which on the one hand goes through the photocells (13, 14) in the event of the interruption of the image beam the diaphragms (15, 16) are stopped and, on the other hand, the registration device (23 to 28), with a coupling (21, 22) between the diaphragm drive (1g) and registration device (23 to 28) is provided, which after stopping the Diaphragm drive (ig) is automatically disengaged and for the registration device (23 to 29) a power drive (25, 26) is provided for after the uncoupling from the diaphragm drive (ig) automatically to the starting position and from the registration device (a3 to 28) adjusted a drag pointer (24) as a maximum pointer will. 3. Apparatus according to claim 2, wherein the counter positions in certain Periods of time are captured photographically on film tape that is used for reproduction of the counter positions is scanned photoelectrically, characterized in that the drive device (1g) for the diaphragms (15, 16) and the device (6 to 8) each driven by a motor (9 or ig) for the advance of the film strip (4) and the device (6 to 8) for the advance of the film strip (4) this advances step by step and at the end of a feed step itself (by 32, 35) switches off and switches on the motor (ig) for the diaphragm drive and the scanning device. (13, 14) the shutdown of the shutter drive motor (1g) and the activation of the Motor (g) for the strip feed in the event of the interruption of the image beam caused by the diaphragm (15, 16). 4. Apparatus according to claim 2, characterized in that that the brand images (2, 2o) of all counter positions on a single photocell (13) act and the drive (ig) of the diaphragms belonging to the individual counter positions (15, 16) takes place with a reduction corresponding to the place value, so that the The photocell (13) is only dimmed when all the apertures (15, 16) show their counter position Take appropriate positions in order to completely interrupt the image beam. 5. Apparatus according to claim 2, characterized in that the marks for identification the counter readings from partial areas arranged according to a combination system (see. Fig. 5 to 13) consist of black or white color, either one after the other by a single photocell or at the same time by those provided for each sub-area Photocells are scanned and the resulting influences on the Photocells adjust the setting of the registration device according to the counter setting steer. 6. Apparatus according to claim 2, characterized in that the marks of a wedge-shaped or step-shaped (Fig. i i) transversely; divided rectangular area are formed and the partial areas are colored differently and the scanning device comes into effect according to the respective ratio of the partial areas to one another. 7. Apparatus for performing the method according to claim i, characterized by two photoelectric scanning devices (15, 16 and i5o, 16o, Fig.4), of which the first (15, 16) each the one, the second (i5o, 16o) the following figure an image strip row representing the successive counter positions and of which one (15, 16) with the first (48), the other (15o, 16o) is connected to the second part (47) of a differential gear, the third of which Part (4g) with a display, writing or printing device (24) for the maximum communicates. B. device for performing the method according to claim i, characterized in that the gear ratios between the z. B. with Display parts of the counters with only one white and one black area (see Fig. 5 to 1o) graded according to powers of the number 2 are (dual system) and that an optical scanning device controlling a register is provided is that by means of a single optical cell in succession or with one of the The number of counter display parts corresponds to the number of optical cells at the same time the black and white areas of the display parts, an optical projection or a photogram the same scans.