SU60714A1 - Device for processing records of recording devices - Google Patents

Description

As an example of a device for processing records of recording instruments, a thermograph and a barograph can be indicated. The resulting index on these instruments has the form of a continuous curve, the ordinates of which are a function of time. Since all measurements are accompanied by an error or an error, the recorders cannot give the true values of the coordinates at one or another point of the curve. These errors are produced by the software (Referring to possible imperfections of the clock mechanism, a lever with a feather or a drum, on which it is impossible to precisely lay the tape, or in the case when all the reasons that affect the accuracy of the results are not taken into account. All these errors relate to Do systematic errors that change the measurement result in one direction, increasing or decreasing it.

Without significant errors, the corrections for abscissas and ordinates form an arithmetic progression.

The proposed device makes it possible to obtain corrected indications for all points of the curve after the error value has been established by monitoring instruments for two points.

FIG. 1 shows the proposed adaptation of a general view; in fig. 2 - type of device during operation; FIG. 3, 4 and 5, 4 illustrate the method of obtaining the corrected values of the ordinates and the corresponding corrections; FIG. 6 and 7 are details of the proposed fixture.

The proposed fixture is made in the form of a rectangle, the two sides of which are formed by strips 17, -18, and the other two guides 3 and 4 for lines 1 and 2.

The ruler / can be moved along the guides 3 and 4 using the handle 12 and the screw 13. The ruler 1 has two scales 9 and //, of which the first can move along the second by means of the screw 21, the dog 19 and the plate 16 having a groove throughout length. Record 16 When you re

No. 60714, -2 movements along the plank 18 can be rotated through a certain angle, meaning that its second end, lying on the plank 17, is free.

The screw 10 moves along the scale 9 a nonius 5, equipped with a needle 7, which, when the vernier is moved, moves due to the lever 15 along the ribbon arc, remaining all the time in the zero vernier division position. Screw .30 is used to secure the nonius 5.

The ruler 2 moves along the guides 3 to 4 using the handle 12 and the screw 14. The ruler 2 has two scales 9 and //.

Moving the scale 9 along the If scale is done by means of a screw 21, a ruler 16 and a pawl 19 (Fig. 6). The screw 10 moves along the scale 9 of the Vernier 6, equipped with a needle 8, which moves along the arc of the ribbon, remaining all the time at the zero division of the Vernier.

On the screw 14 on the side of the handle 12, a drum of four cylinders is mounted .. 22, 23, 24, 25. The cylinder 22 does not participate in the rotation of the screw, because it is connected to the instrument case; cylinder 23 rotates freely and can be locked with a screw; cylinder 24 rotates with little friction and, finally, cylinder 25 is rigidly connected to screw 14. Finger 29 is mounted on cylinder 24, connected to plate 28, which is movable in recess 27. The surface of cylinder 25 is threaded with such a number of threads that at each revolution of the cylinder 25, finger 29 is moved one step of its thread.

From FIG. 3, the correction method for ordinates can be understood. If A-A and LL are the extreme ordinates measured by dividing the tape, and A-Az and L-Lj are the true values of the ordinates obtained using other instruments for the same moments of time, then the vertical segments lying between the straight lines Li AzLz d Right angle corrections for all intermediate points of the curve.

The application of this method of finding corrections and corrected values of ordinates in the proposed adaptation is explained in FIG. 4, 4 and 5.

FIG. 4 corresponds to the line / (according to FIG. 1). Let the lines NM and KQ correspond to the edges of the recorder tape, AL the recorded curve, for example, the temperature change as a function of time (the clock is counted on the abscissa, the degrees on the ordinate axis).

In this case, the scale // shows for the point A the curve the uncorrected value of the ordinates LL. The scale 9 is shifted along the scale // and set with the help of, the needle 7 and the nonius 5 on the true value of the ordinate A-A2, obtained with the help of the main instrument. The offset of the zero divisions of the scales 9 and 11 will be equal to the correction L1L2 for the point L of the curve.

FIG. 5 corresponds to line 2 (in Fig. 1), on which the scale 9 with the needle 8 is shifted along the scale 1G so that at the point L ol marks the true value of the ordinate. The distance between the zero divisions of these scales will be equal to the LiLz correction for the point L of the curve.

Together with scales 9 and 5, plate 16 is displaced. It takes a direction (Fig. 4 and 5), which is parallel to the PiUi array, which connects the zero points of the scales 9 and 9. The vertical segments between the straight line PiUi and the forward PU, which connects the zero points of the scales 11 and 11 are equal to the corrections for all intermediate points of the curve.

Finding the corrected values of ordinates for any point of the curve is done as follows.

Fixing the position of the plate 16, move the ruler 2, so that the tip of the needle 8 is moved along the curve. A non-vernacular 6 with a scale of 9 will show the corrected value of the ordinate for each given point of the curve, and the distance between the zeros of the scales 9 and 1G will be the input direction.

Finding a time correction for any point on the abscissa axis is performed using cylinders 23, 24, and 25 (Fig. 7). Let the time correction be zero at point A of the curve. At point L, the major correction is equal to two minutes. When moving the line 2 of the point L of the curve to the point L by means of the handle 12, the cylinder 25, rigidly connected to the said handle, will turn the finger 29 on the arc 00, showing the number of revolutions of the cylinder 25 or the handle 12, while the cylinder 23 is stationary. Considering that the finger 29 moves one step with a full turn of the handle 12 and making an amendment by time equal to two minutes, and the number of turns marked with a finger 29, we get an amendment to the time for each turn of the handle 12, which (amendment) must be added or subtracted from the uncorrected time flagging at the corresponding point on the abscissa of the ribbon.

Subject invention

A device for processing records of self-feeding devices, made in the form of a rectangle overlaid on a tape, characterized by the use of movable along guide lines installed on ordinates of the record being processed and equipped with corresponding ShKals, mobile vernier and needles, in order to install corrected readings of the values recorded on the record for strengthening the needles at the corresponding points of the recording curve, it was possible to get corrected readings of any point howling line displacement and appropriate setting of the needle, wherein the determination of corrections for the horizontal axis is performed by means of the drums and the fingers.

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