SU468161A1 - Device for calibration of electrical measuring instruments - Google Patents

Description

(see Fig. 2) consists of an outer 14 and an inner 15 cone, a photo sensor 16, a diaphragm 17 and a pump 18, a tool housing 19, an indicator 2O, and an instrument glass 21. An optical-electronic converter serves to convert the light flux during movement pointer along the scale into electrical impulses and contains two cones - internal and external, rigidly connected to each other with an obishchim base. At the top of the outer truncated cone there is a photo sensor that monitors the change in the illumination of the scale of the instrument being turned 2 while the pointer is moving. To obtain the maximum transfer of the change in light from the scale to the photo sensor, the cones forming both cones are parallel, and on the part of the inner cone, forming the slit of the diaphragm, are treated to a specular gloss. The bases of both cones are attached to the viewing glass of the instrument. The slit of the diaphragm 17 is located so that in the field of view of the photosensor 16 there is a part of the scale of the instrument being scanned with all the marks: the division and the pointer spear. To create a uniform illumination of the scale B of the device, loosening lamps are used, arranged along an arc of a circle having a common center with the center of the cones. Moreover, they are located outside the aperture and are located so that even light does not create a shadow from the spear in the part of the scale visible in the diaphragm, which improves the operating conditions of the device. The output of an OEP through a uspitesh (see Fig. 1 is associated with a block for selecting the moment of coincidence of the axes of the azatel and the calibrated mark. Program switching unit 7 serves to coordinate the interaction of the blocks of the automatic calibration device and ensure that the set function is executed. with the control unit, two outputs, respectively, with the input of the reference signal unit and the driver of the input signal. Unit 9 at the moment-equality of the measured value with the lower and upper maximum allowable values For each scale mark, short electrical pulses are sent to the comparison unit and then to the verification results registration block.To determine the variation, the device has a variation definition block, the input of which is connected to the output of the reference signal former and h. by comparison device. Before starting calibration, according to rif) e-. the device and the number of calibrated marks, the program switching unit selects the balers of an exemplary divider, and then, according to the operator's signal, starts / shaper 1 of the input signal, assigning a continuous linearly increasing signal to the calibrated instrument.-When moving the pointer of the instrument being scanned the scale at the moments of combining it with marks causes a change in illumination, which is detected by the photoelectric sensor of the OEP, amplified by block 5 and fed to block 6. The latter, after forming the signal, produces a moment This is the coincidence of the geometric axes of the pointer and the calibrated mark, which is fixed by a short electric pulse. This im; the pulse goes to block 10 where cpaBltfflBa-. time with two reference signals corresponding to the upper and lower maximum permissible values of the measured value for a given verifiable mark of the scale. The result of the comparison in the form of an error is recorded by the register unit. The variation is defined as the difference between the actual values of the measured value at the same instrument reading with a gradual increase and decrease of the input signal. The result of comparison with a valid value is recorded by the registration unit. The subject of the invention is a device for checking electrical measuring instruments, comprising an input driver, a source of reference signals, a comparator unit, a unit for measuring the difference of signals at the instants of coincidence of the pointer with a check mark, an optical-electronic converter, characterized in that, in order to simplify the design and improving the performance of calibration, the optoelectronic converter is made in the form of a diaphragm rigidly fixed above the instrument being tested and formed part of a ring lying in the plane and a base of two rigidly interconnected by cones - internal and external continuous hollow, truncated at the top of which fortified photosensor.

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