SU894377A1 - Device for determination of part static moment - Google Patents

Description

(k) DEVICE FOR DETERMINING THE STATIC MOMENT OF PRODUCTS

one

The invention relates to a technique for measuring the coordinates of the center of the body weight of articles, for example, turbine blades, propeller blades, etc.

A device for measuring the coordinates of the center of gravity by static unbalance moments is known, which contains a sensing element with a lock for the article under investigation, a support, a base and a reading unit. 3 A known device does not possess the required languor and speed due to the need to measure very small angles of rotation of the sensitive element and from - due to the presence of re-installation of the product in the lock, violating the mutual position of the product relative to the sensitive element.

The closest in technical essence to the present invention is a device for determining the static moment of products, comprising a base, a support mounted on it, a yoke with a scale of reading of its angle of inclination, a support mounted on the support, mounted on the yoke, a reading unit and balancing a unit associated with the rocker and the reading unit f 2 j.

This device has insufficient accuracy and speed, since the static moment of the product is measured using a manually twisted torsion with mechanical hysteresis and non-zeroing, as well as a small equilibrium range.

15

The purpose of the invention is to increase accuracy and speed.

Claims (2)

The goal is achieved by the fact that the balancing block is made in the form of racks, the upper ends of which are connected to the rocker, and the lower ends are placed on balancing masses, and the cam mechanisms for setting the balancing masses, each of which is associated with the corresponding rack, are read in the form of discs with counting divisions on a generator, kinematically associated with an appropriate mechanism for installing balancing masses and a shield with division divisions, optically coupled to a scale of reading the angle by the womb of the beam, while dividing the reference discs correspond senior decades of reference, and the reference screen division of the junior decades of reference. Figure 1 shows the diagram of the device; figure 2 - reading unit. The device contains a beam 1, mounted on a support 2 and provided with a scale 3 of the reference angle of inclination, made, for example, in the form of microscale. The measured product t, for example, the bin blade, is fastened in the clamping device 5 placed on the rocker arm 1 according to the risks 6 at the calculated distance C from the support 2, so that the distance L from the center of attachment of the product k at the place of its installation, for example, in the turbine rotor. The device also contains an equilibrium blocking unit connected to the rocker 1 made in the form of racks 7 and 8, the upper ends of which are connected to the rocker 1 by means of base sites 9 and 10, which are located at fixed calculation distances A and B from support 2, which allows, by means of the weights Q- and Q, the Ura-weighing masses 11 and 12, to create the design moments. The removal and installation of the balancing masses 11 and 12 on the lower ends of the uprights 7 and 8 are carried out by corresponding cam mechanisms, each of which is associated with a corresponding stand, contain The cams 13 and 14 interacting with the levers 15 and 16, which remove and lower the balancing masses 11 and 12. The device contains a reading unit connected to the counterbalancing unit, made in the form of disks 17 and .18 with reference divisions 19 on the displaying, kinematically related with the corresponding mechanism for setting the balancing masses 11 and 12 and 74 of the screen 20 with the reference divisions 21, graduated in units of moments, while the reference divisions 19 of the disks 17 and 18 correspond to the highest decade of reference, and the reference divisions of the screen 20 are formed The projections of the readings of the scale of 3 readings of the rocker arm 1 correspond to the lower decade of the readout. The kinematic connection between the disks 17 and 18 and the corresponding installation mechanism is carried out by means of sprockets 22 mounted on the shaft of the cam mechanism and chain drives 23. To transmit the image of the scale 3 to the screen 20, the device is equipped with a 2C illuminator, a capacitor 25, a lens 2b, a mirror 27, jointly forming an optical system. The yoke 1 is equipped with a container regulator 28 and sensitivity regulator 29, and to expand the measuring range, with a combined container and center of gravity regulator in the form of a slider 30 on which weights 31 are placed, moved vertically with the slider 30 by means of a spindle screw 32, and also, the base pads 9 and 10 (prisms), the number of which is set depending on the measurement range. In order to calm down the oscillations of the rocker arms 1 and increase the speed, the device is equipped with a damper 33 mounted on the base 3 on which the support 2 is installed. To limit the motion of the rocker arm 1, the stop 35 is mounted on the base 3. The device works as follows. The clamping device 5 for fastening products k is set at a calculated distance C according to risks 6. The beam 1 with the clamping device 5 and the balancing weights 11 and 12 hung on racks 7 and 8 are tared with the help of the controller 28 until the screen 20 zero readings will be visible (at the lower decades), and the readings of the disks 17 and 18 also correspond to the initial zero values. At that, the conditional line passing through the support 2 and the center of gravity of the rocker arm 1 with the clamping device 5 (point C) is shifted relative 5 but line horizon at an angle that allows the measurement of inclination at both sides to complete angle ± Ro i.e. in absolute values of Hci / 2.Yo / After calibrating the yoke 1 using the sensitivity adjuster 29, the division price is adjusted according to the scale of 3 readings on the screen 20. The division price is checked by overlaying the reference weight M on the rack 7 Mn) Qro DB of control weight, B - shoulder of gravity (weight) weight equal to the distance from the base platform to the support 2. After adjusting the dividing price, the device is ready to measure the static moment of the products C, In the fixture 5 the measured product is attached to ond creates a moment where R - the weight of the article, L the distance of the center of gravity of the article k from the support 2. Under the effect of the static moment Hj. the beam 1 tilts until it stops 35. With the help of cam mechanisms, the balancing masses 11 and 12 are removed from racks 7 and 8 until the counting divisions 2 of 3 are optically projected onto it on screen 20. In this case, the beam 1 moves away from the stop 35 and its angle of inclination is within the limits of Q. When turning the cam mechanisms and removing the balancing masses 11 and 1 from racks 7 and 8 using gear 23, and asterisks 22 simultaneously rotates disks 17 and 18 with counting divisions 19, scaled directly in units of moments (by the senior decades). The measured time Mj ,, is measured simultaneously by the indications of disks 17 and 18 (older decades of reference) and directly across screen 20, on which the reading division 19 of scale 3 (lower decades of reference) is projected. The measured time M is equal to : А + Ла ..- B + sn, m rAeSC) - is the total weight of the balancing masses 11, removed from the rack 7; SQ "The total weight of the balancing masses 12 taken from the rack 8; A is the distance from the base sites 9 and 10 to the support 2 S — the price of division on a scale of 3 counts on screen 20; n is the number of 3 scale divisions counted on screen 20. The presence of counterbalance (their blocks, made in the form of racks, the upper ends of which are connected to the rocker, and at the lower ends are installations of balancing masses, each of which is associated with a corresponding rack as well as the presence of a reading unit, made in the form of disks with reference divisions on the generator, kinematically connected with the corresponding mechanism of setting the balancing masses, and a screen with reference divisions, optically connected with the scale of reference of the coal tilting of the rocker arm, with the reading disc divisions corresponding to the highest decade of reference, and the screen reading increments corresponding to the lower decade of reference, can significantly improve the measurement accuracy and speed, as well as expand the measurement range and reduce the balancing time due to the rapid selection of balancing masses and direct measurement moment (in units of moments). Claim of the invention A device for determining the static moment of products containing a base mounted on A support, a yoke with a scale of reference for its angle of inclination, mounted on a support, a clamping device for fastening the product, placed on the rocker arm, a reading unit and a balancing unit associated with the rocker arm and the reading unit, characterized in that, in order to improve accuracy and speed , the balancing unit is made in the form of racks, the upper ends of which are connected to the beam, and balancing masses are placed at the lower ends, and the cam mechanisms for setting the balancing masses, each of which is associated with unit, made in the form of discs with counting divisions on the generator, kinematically associated with the corresponding mechanism of installation of balancing masses, and a screen with counting 789 3 divisions, optically coupled to the scale of reading of the angle of inclination of the rocker arms, while counting divisions of the disks correspond to the highest decade of reference, and the reference dividing screen correspond to the lower decade of reference. 7 Sources of information taken into account during the examination 1. USSR author's certificate No., cl. G 01 M 1/12, 1970. 2. USSR author's certificate If 300796, cl. G 01 M 1/12, 1968 (prototype).