SU742704A1 - Vibrodisplacement measuring device - Google Patents

Description

(54) DEVICE FOR MEASUREMENT B1 B1-T 1TERVMRSh1ga II

The invention relates to the field of measurement of vibration parameters and can be used to measure vibration displacements in calibration equipment. A device for measuring vibration displacement is known, which contains a light source, a receiver-and a rotating machine installed between them, in which case an opening 1 is made tangentially to the rotor. The drawback of the device is a small dynamic range and low measurement of vibration displacements. The closest in technical terms and effect to the invention is a device for measuring vibration displacement, containing sequentially installed illuminator, slit mask, light cutoff element and photo-recording system 2. The disadvantage of this device is video measurement accuracy in a wide dynamic range, arising due to the presence of a constant component of the luminous flux, leg 3araii.:iiHincTt of the luminous flux from the movement of the diffraction on the narrow and the narrow fissures and blurred edges q light flux after passing the slots. The object of the invention is to improve the accuracy of measurement of displacements. This goal is achieved by the fact that the device is equipped with a lens, an element of the cut-off light flux installed and a slit mask, one of the edges of which is attached to the object being controlled, a mechanism for moving the cut-off element and a diffuser installed in front of the photo-recording system. FIG. 1 shows a device for measuring vibratory displacement; see 2 shows the time diagrams of the converted light fluxes, namely; in fig. 2, and a diagram of the modulated light flux is shown in FIG. 2 is a diagram of it after cutting off the constant component; in fig. 2.c - after usi eF p - light JDJH light flux, where the flux corresponds to the limit of linearity of the light characteristic, f is a modulated light flux. The device consists of an illuminator 1 with a parabolic mirror 2, fed from a source 3, having a constant light intensity regulator 4, a television mask 5, the edge of which is attached to a contoured object 6, an objective 7, which serves to form an enlarged image 8 of a slit mask 5, the element 9 for cutting off the light flux, the mechanism 1O for displacing the element for cutting off, the legs of the x-ray mirror 11, the optical axis 12, the diffuser 13 and the photoregistering system 14. The diffuser 13, made, for example, vice A vetode with a ribbed pepper surface serves to evenly distribute the luminous flux over the entire surface of the photocell receiver (its registering system. All elements of the device, with the exception of the edge of the strap mask 5 attached to the object to be monitored 6, are located on a fixed plate having vibration isolation , and are covered with a casing from post-phonon light (not shown in the drawing). The device operates as follows. The constant luminous flux of the illuminator 1 is guided to the slit mask 5. The edge of the light flux cutting element 9 is adjusted to the vibrating edge of the slit with the help of the micrometric screw of the moving mechanism 1O. After that, the luminous flux of the syuvatel 1 is increased so that the output current of the registering system, corresponding to the amplitude of the vibration displacement: does not exceed a straight line linearity, is registered; him. Then, the 1FOVIDATOR calibrates the device, using the movement mechanism 10 to a position corresponding to a certain value, for example, µm displacement of the edge of the slit mask 5, and the resulting output current Oz is recorded. The magnitude of the vibratory displacement B is determined by comparing the obtained output currents as As can be seen from FIG. 2, by cutting off the constant component of the amplified modulated flux, the modulation depth of the output signal is increased, which leads to an increase in accuracy. Thus, supplying the device with a lens, a light beam cut-off element, a mechanism for moving the cut-off element and a diffuser makes it possible to more fully utilize the linear portion of the light characteristic of the photo-recording system and achieve greater measurement accuracy. Formula of the Invention A device for measuring vibration displacement, containing sequentially installed an illuminator, a slit mask, a light beam cut-off element and a photo-recording system, characterized in that, in order to improve the measurement accuracy, it is equipped with an object installed between the light beam cut-off element and 1 slit mask, one of the edges of which is held together with the object being monitored, the mechanism for moving the cut-off element and the diffuser installed remotely before the photo-recording system. Sources of information taken into account in the examination 1. UK Patent No. 1449275, cl. G 01 B 11/14, (G1A 686), 1976. 2. Japanese Patent No. 49-48782, 1975 (prototits /.

f

FPR

f

Claims (1)

²⁵ claims A device for measuring vibration displacements, comprising a sequentially installed illuminator, a crevice mask, a light cut-off element and a photo-recording system, characterized in that, in order to improve the measurement accuracy, it is equipped with a lens mounted between the $$ light cut-off element and! a slit mask, one of the edges of which is fastened with a controlled object, a mechanism for moving the cut-off element and a diffuser installed with a ⁴⁰ pepper pepper photo-recording system.