DE1214894B - Device for recording the maximum value and the next lower values of measured values occurring in recording time segments of the same length - Google Patents

Description

Device for recording the maximum value and the next lower value Values of measured values occurring in registration periods of the same length For billing purposes the peak values measured in a longer registration time are often a Performance recorded. Is known z. B. control in electrical measurement technology the electrical work done every quarter of an hour, especially the 1/4 hour maximum power output during a given longer measurement period Interested. There are display devices that only record the size of this maximum, without specifying when it occurred. In addition, devices are known at which the maximum by progressive maximum marking on a registration strip next to the measurement record is marked by every time an absolute highest measured value is obtained, such a marking is applied. In this case is therefore also the point in time of the maximum performance. held.

In particular, it is known in the case of maximum registration devices for triggering of switching operations, contact means must be provided which, when the limit is exceeded by the Drag pointer position specified value are closed and a printing device press to register the maximum value.

The invention is based on the object of the size and time Position of several, in particular three, maxima during a period independent of the order of their occurrence. To solve this problem is the method described above for progressive maximum marking is not suitable, because there intermediate maxima can occur, which are higher than the third from last or the penultimate maximum, which are still not marked because they are smaller are than the last absolute maximum value recorded.

The present invention relates to one which avoids these disadvantages Device for recording the maximum value and the next lower values of in measured values of the same length of registration time. The device is characterized according to the invention by one of the number of measured values to be displayed corresponding number of simultaneously acted upon by the measured variable and periodically deletable maximum value memories with drag pointers, through in the maximum value memories arranged, if the specified by the drag pointer position is exceeded Value brought to the closure of contact means and by a relay circuit arrangement, that when the maximum contact of the memory showing the lowest value closes the other memory switches off. An embodiment of the invention is given by hand the F i g. 1 to 3 of the drawing explained.

F i g. 1 shows a known maximum memory consisting of the measured value receiver 1, the electromagnetic clutch 2, the driver lever 3, the drag pointer 4, the return spring 5, the stop 6 and the scale 7. The measured value receiver 1 can, for. B. contain a stepper motor which receives one pulse per unit of measurement. Since the clutch 2 is normally energized, the measured value pulses are transmitted to the driver lever 3 under the tension of the spring 5. The drag pointer 4 assumes a position which corresponds to the memory content of an earlier measurement period. If this memory content is reached and exceeded, a so-called maximum contact between the lever 3 and the drag pointer 4 is closed. This contact then remains in place until clutch 2 is briefly de-energized at the end of the registration period; whereby the driver lever 3 is returned to the stop 6. If, for example, the three highest measured values occurring in a longer period of time are to be recorded, then three of the values shown in FIG. 1 shown maximum memory, which are all acted upon simultaneously by the measured variable. The maximum contacts of these three maximum memories are denoted by Ma, Mb, M and are shown in FIG. 2 connected in series with relays A, B and C. The relays operate the contacts a1, a2, bi, b2, C1, c2, which are in series with the excitation windings Ka, Kb, K, of the electromagnetic clutches of the memory. The contact Z is opened briefly at the end of a registration period, whereby the windings of the electromagnetic clutches are de-energized and the driver levers of the individual memories are reset.

The method of operation of the device described up to now is as follows: If one assumes that mean values over 1/4 hour are to be formed in each case, then contact Z is briefly interrupted every 4 hours by a timer (not shown). At the beginning of a registration period, all driver levers run up in accordance with the measurement pulses that occur. Since the drag pointers of the individual memories show different values, the maximum contact that is located in the maximum memory with the lowest display is closed first. If, on the other hand, the mean value is smaller than the smallest of the three stored values at the end of the registration period, nothing changes in the setting of the drag pointer. When the maximum contact Ma closes, for example, the relay A receives power and opens its normally closed contacts a1, a2. As a result, the clutches of the other two accumulators are de-energized, so that the driver levers fall back to zero. Due to the measuring impulses still occurring up to the end of the registration period, the driver lever is turned further and takes the drag pointer with it. At the end of the registration period, the memory with the lowest measured value has been set to a new maximum value. This is a relative maximum because the maximums of the other two memories can be either greater or less than the new maximum. When contact Z is opened at the end of the registration period, the driver levers fall back into their starting position, unless they were previously reset to zero by de-energizing the clutch.

At the beginning of a new monitoring period consisting of any number If there are registration periods, all drag pointers are reset to zero by hand. The operating personnel must ensure that at most one of the maximum contacts is closed. The simultaneous closure of two or all maximum contacts that would cause the associated relays and all clutches to be energized are de-energized by opening the corresponding normally closed contacts, whereby all Driving levers would have to remain in their rest position.

To a failure of the device as a result of accidental closure of several To avoid maximum contacts when resetting the drag pointer, it is advisable to special zero stops must be provided for the drag pointers outside the path the drive lever lie and a closure when the drag pointer is reset prevent the maximum contacts. It is sufficient that the distance between the contact surface the drive lever and the contact surface of the drag pointer in the order of magnitude of 1 mm. In order to prevent that the driver lever several Maximum contacts are operated at the same time, it makes sense to adjust the stops to make and to adjust to slightly different values. the Differences in the setting of the stops can be kept so small that that they are not noticeable when looking at the individual storages.

The periods in which the maximum values displayed were measured, can be marked in different ways. You can z. B. a multi-time recorder use and assign a marking device to each maximum memory that is used in the Activation of the maximum contact causes a time marking. Using this time stamp you can see the times at which the individual memories are displayed Had reached its peak. It is expedient to use one for all time marking devices only a single recording strip, which is moved forward proportionally to the time and is printed on the time provide. The times in question can also be directly synchronized with the help of a current pressure value can be recorded by closing the printing process of the maximum contact is triggered. With an additional marking you can Establish the assignment to the individual maximum stores.

The individual maximum memories can also be different from the one shown Embodiment be formed. It is only essential that this memory can be reset and that a contact is made when the set maximum is reached.

When interconnecting the individual relays and clutch coils according to FIG. 2 it could happen that two maximum contacts close at the same time if the memories have exactly the same content. In this case, none of the drivers would be moved further because then all the driver levers would be decoupled. This case is not very likely because the time difference between the response of the two contacts must be smaller than the response time of the relays A, B, C.

However, in order to rule out this possibility, according to FIG. 3 provide a parallel connection of thyratrones, which are controlled so that really only one thyratron can ignite and bring the associated relay to respond. Relays A, B, C, whose contacts a1, a2, b1, b2, c1 and C2 (not shown) are connected in the same way as in FIG. 1, are located in the cathode lines of the thyratrone Ta, Tb, T. 2. The maximum contacts are again designated by Ma, Mb and M. The capacitors Ck are connected in parallel to the relays. The capacitors Ca, Cb, C, are used to transmit the ignition pulse, which is supplied by the capacitor C. The high-ohmic resistor R is used to charge the capacitor C. When the contact Ma, Mb or M closes, an ignition voltage occurs at one of the resistors R, which causes the thyratron Ta, Tb or T to ignite. The negative grid bias of the thyratrone is generated with the help of the resistors R ,,. The capacitor CZ and the resistor R are dimensioned so that only one ignition pulse can be delivered in each period. The common anode resistance Ra serves to limit the current of the thyrattone. Since the arcs of the thyratron have negative resistance characteristics, only one thyratron can ignite if two maximum contacts should close at the same time. Each maximum memory can be assigned a time marking device which is actuated by the maximum contact and which records the time of each maximum. If there are several memories, it is advantageous to let all time marking devices act on a common writing strip provided with a time stamp.

Claims (6)

Claims: 1. Device for detecting the maximum value and the next lower values of measured values occurring in the same length of registration time segments, characterized by a number of maximum value memories with drag pointers (4), which are simultaneously loaded with the measured variable and periodically erasable, corresponding to the number of measured values to be displayed Maximum value memories arranged contact means (Ma, Mb, M,.) Which are made to close when the value specified by the drag pointer position is exceeded and by a relay circuit arrangement (A, B, C ... or a1, a2; b1, b2; Cl, C2 ... ), which switches off the other memories when the maximum contact of the memory showing the lowest value is closed. 2. Apparatus according to claim 1, characterized by a time stamping device assigned to each memory, which indicates the time of each newly displayed maximum. 3. Device according to claim 2, characterized in that that the time markers register on a common strip, the is provided with a time stamp. 4. Apparatus according to claim 1, characterized in that that the relay circuit arrangement of the individual maximum value memories connected in parallel assigned similar switching groups exists. 5. Apparatus according to claim 4, characterized in that each switching group is a thyratron as a switching element (T) contains. 6. Apparatus according to claim 5, characterized by one over a high-resistance resistor (R) chargeable capacitor (C,) for generating a short-term Ignition pulse for the thyratron (T) to be ignited, which is triggered by the delivery of the ignition pulse is discharged so far that no further Ignition pulse more can be delivered. Publications considered: Swiss U.S. Patent No. 239,561.