RU2650U1 - MACHINE FOR DYNAMIC BALANCING OF CUTTING DISCS - Google Patents

Description

MACHINE AND DYNAMIC BALANCE OF BOUNDED DISCS

The invention relates to a balancing technique and can be used for dynamic balancing of bodies of revolution, for example, cutting discs.

Known machine for balancing products / A, C. No. 567984,

M.Nl, C | M 1/38 / containing a base, a mechanical oscillating system installed in the base, a drive of coal vibrations and combined continuous rotation of the product, a measuring unit, a device for removing imbalance rigidly fixed to a mechanical oscillating system. The disadvantage of the machine is the small accuracy of the expansion.

This machine does not allow the installation of parts with spaced centers of rotation axis.

In addition, vibrations of the entire mechanical system are recorded on the machine. Therefore, a change in the balance of one of the elements of the system, for example, replacing a tool or changing the stiffness of the threaded connections of the elements of the system, necessitates the adjustment and calibration of the measuring unit.

Known machine for dynamic balancing DV-50 / cm. Technology for processing diamonds into diamonds, ed. V.I. Epifanov et al., P. 209, Fig. 216 / containing base, movable supports,

measuring unit. .- v

The disadvantage of this machine is the inaccuracy of balancing, since in this machine the runout and vibration of the drive motor is transmitted to a horizontally located disk and dynamic balancing is performed at reduced speeds.

 M.C. GIM 1/38

There is no device on the machine to remove the imbalance.

The closest in technical essence to the claimed utility model is a balancing machine / cm, Technology for processing diamonds into diamonds, ed. IN AND. Epifanov et al., Art. 209, Fig. 215 / made on the basis of the cutting machine mod. OAB-4 consisting of a base on which the upper and lower supports of rotation of the cutting disc assembly with the spindle are mounted, and the upper support is a mechanical oscillatory drive of rotation of the disks.

The disadvantage of this machine is the small accuracy of balancing, since the balancing disc assembly with the spindle is balanced using a set of ring-shaped wires with reinforced weights of various weights 0 there is no device to remove the imbalance.

When working on this machine, the accuracy of balancing depends on the skill of the balancer.

The utility model is based on the task of creating a machine for the dynamic balancing of cutting discs assembled with a spindle, in which, due to the introduction of new nodes, the position and position of the unbalance are measured and, in addition, the value of the removed unbalance is removed and recorded directly on the machine, and thereby increases balancing accuracy and labor productivity.

The problem is solved in that the machine for dynamic balancing of the cutting discs consisting of a base on which the upper and lower bearings of the rotation of the cutting disc assembly with the spindle are installed, the upper support being a mechanical oscillating system, drive rotation of the disk, according to the useful The model introduces a measuring unit with a displacement strain gauge and a stroboscope.

In addition, the task is solved by the fact that in the machine

For dynamic balancing of cutting discs, a device is introduced for removing imbalance with a reading unit.

The set of essential features of the claimed utility model leads to a technical result consisting in combining the measurement of imbalance, determining its position and its removal on one machine, which leads to an acceleration of the process, accuracy of balancing and increased labor productivity.

.Introduction to the machine for dynamic balancing of the cutting discs with measuring displacement strain gauge and a stroboscope allows you to measure the magnitude and determine the position of the imbalance, and the introduction of a device to remove the imbalance with the reporting unit allows you to remove the imbalance directly on the machine, and the magnitude of the removed imbalance is recorded by the reading unit and due to this, balancing accuracy and labor productivity are increased.

The essence of the utility model is illustrated by drawings.

In FIG. I, a machine for dynamic balancing of cutting discs.

In Fig. 2, a device for removing imbalance with a reporting unit.

The machine consists of a base I, on which are installed the upper 2 and lower 3 bearings of the rotation of the cutting disc assembly with spindle 4, and the upper bearing 2 is a mechanical oscillating system, the drive of rotation of the disk 5 with the drive belt b, the control cabinet 7 in which the control equipment is located the operation of the machine, the Start button 8, the Stop button 9, the measuring unit 10, containing two light scales, having an imbalance and a removable unbalance, with a displacement strain gauge P, which determine and convert the oscillation amplitude of the cutoff of the complete disk assembly with spindle 4, caused by an imbalance, into an electrical signal, a strobe 12 determining the position of the imbalances, a device for removing the imbalance 13 with the reporting unit 14.

The device for removing the imbalance 13 with the reporting unit 14 / Fig. I / consists of a bracket 15, with the help of which the device is installed on the base I, to which the guiding disks 16 are attached, an electric motor 17 with a chuck J8, which is inserted into the drill 19, an arm 20 and a reading block 14 with a probe 21 and a return spring fixed thereon 22, the feed handles 23 of the day unbalance removal device.

The machine works as follows.

The cutting disc assembly with spindle 4 is inserted into the lower support 3, the upper support 2 presses and fixes the spindle in the plain bearings. When you press the Start button 8, the drive of rotation of the disk 5 automatically puts on the drive belt b on the pulley of the cutting disc assembly with spindle 4 and accelerates it to the working speed of rotation. When the button 9 is pressed, the Stop drive of rotation of the disk 5 automatically resets the drive belt 6 from the pulley of the cutting disc assembly with spindle 4 and returns to its original state, while ensuring free rotation of the cutting disc assembly with spindle 4. At this time, the displacement strain gauge P converts vibrations of the upper end of the cutting disc assembly with spindle 4, caused by the presence of an imbalance in the electrical signal and transmits it to the measuring unit 10 to amplify and convert it into an electrical constant signal Costumed proportional to the imbalance.

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The displacement strain gauge P is located in the same plane with the drill 19, the device for removing the imbalance 13. At the time of the passage of the existing imbalance in the plane of the strain gauge P, the measuring unit 10 gives a signal to & the operation of the strobe 12, which indicates to us the location of the imbalance.

After stopping the cutting disk assembly with spindle 4, it is oriented in such a way that the place indicated by the stroboscope 12 is located above the drill 19. By pressing the handle 23, the motor 17 is turned on and is guided by the displacement 16 to the idle surface of the cutting disk assembly with spindle 4. The reading unit 14 with a stop 21, set at the same level with the drill 19, reads the drilling depth and generates an electric signal of constant voltage, reduced to the value of the removed ... unbalance, to the light glass the imbalance of the measuring unit 10, If the readings of both scales coincide, the handle 23 is released, the motor 17 is turned off, and the return spring 22 returns the probe 21 to its original state.

The main plant

B, S, Manukoveki

Claims (1)

A machine for dynamic balancing of cutting discs, consisting of a base on which upper and lower supports of rotation of the cutting disc assembly with a spindle and a rotation drive are installed, the upper support being made in the form of a mechanical oscillating system, characterized in that the machine comprises a measuring unit with a displacement strain gauge and a strobe and an unbalance removal device with a reporting unit.