SU1512710A1 - Arrangement for clamping blanks - Google Patents

Abstract

The invention relates to the field of machine tool construction, and more particularly to devices for securing blanks on a machine spindle. The aim of the invention is to improve accuracy by providing an adjustable clamping force. On the machine spindle 5, the cartridge case 1 is fixed in which the spiral disk 2 connected via the shaft 10 to the wheel 11 of the gearbox 6 is placed. The wheel 8 of the gearbox 6 is connected to the spindle 5. Believe 18 of the gearbox housing is a shoe brake pulley From the pneumatic cylinder with adjustable force on its rod. When the spindle rotates, the gear rotates with it and the gears do not work. When clamping and unclamping, the gearbox housing is braked by a shoe brake, and the rotation speed is reported to the spindle. In this case, the wheels 8 and 11 rotate at different frequencies, the spiral disk 2 begins to rotate relative to the housing 1, and the cams converge or diverge depending on the direction of rotation of the spindle. 3 il.

Description

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The invention relates to a machine tool industry, in particular to devices for securing blanks on a machine spindle.

The purpose of the invention is to improve the machining accuracy by providing adjustment of the clamping force.

FIG. 1 shows the cartridge, axial section; in fig. 2 - option with braking gearbox housing; in fig. 3 - a variant with braking of the machine spindle and a drive of rotation of the gearbox housing.

The device contains a cartridge I, in the case of which the spiral disk 2 with the entrance w is placed, they are engaged with it by cams 3 for clamping blanks, bevel gear 4 for manual control of the cartridge. The cartridge 1 is attached at the front end of the spindle 5. The spindle 6 is fixed at the rear end of the spindle so that it can rotate on the bearings 7. A central wheel 8 is engaged in the spindle in the gearbox and engages with the gears 9. The spiral disk 2 is connected to a hollow slotted a roller 10, on the other end of which a central wheel 11 is engaged, which is engaged with gears 12. Gears 9 and 12 are connected to shafts 13, the axles of which in bearings 14 are mounted in gearbox housing 6. It uses several for centering and balancing the gearbox One set of gears 9 and 12 (three sets), placed at 120 degrees, around the axis of the gearbox in the slots 15.

When machining the workpiece, the gearbox 6 rotates together with the spindle 5. For pressing-clamping the workpiece, as well as during retooling, a brake with an external pad 16 is used, controlled by an pneumatic cylinder 180 with an adjustable force on the brush. The surface 18 of the gear housing thus serves as a pulley. When the pneumatic cylinder 17 is turned on, the pads 16 are pressed to the surface 18 with a force proportional to the air pressure applied to the pneumatic cylinder 17. The sensor 19 records the movement of the spiral rail and the spindle. In the process of pressing-clamping and changeover, when the gearbox is braked or slips at a low speed, the device control circuit registers a different number of pulses from the arms 20 and 21 of the sensor.

The device works as follows. For spinning the workpiece, the spindle is reported to rotate counterclockwise with the brake applied. With the help of

gears 9 and 12 and gear wheels 8 and 11, the spiral rail begins to rotate at a lower speed relative to the spindle, the cams 3 are released. The workpiece is clamped by rotating the spindle clockwise with the brake applied. At the same time the reducer provides movement of cams to the center. After the workpiece is clamped with a predetermined force, the surface 18 slips in the brake pads 16, and the arm 20 of the sensor 19 begins to generate pulses, on the basis of which a signal to turn off the brake is generated.

A variant of the device for clamping workpieces with a braked shpindle (Fig. 3) contains, instead of a brake, a friction gear 22, a wheel 23 which is driven by an electric motor 24 and a pneumatic cylinder 17. The gearbox 6 is turned on by applying adjustable pressure to the pneumatic cylinder 17 and turning

5 electric motor 24. When the required clamping force is reached, wheel 23 begins to slip on surface 18.

When the gearbox is rotating, the gears are not constantly in operation, the noise is reduced, thereby increasing the durability of the gearbox. The latter can be easily centered and balanced, which allows machining on the machine without reducing the spindle speeds. Adjusting the clamping force eliminates the deformation of the workpiece.

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Claims (1)

Invention Formula Device for securing blanks on the spindle of a lathe with a drive The clamp-unclamping Q spindle, containing a clamping chuck with a spirally-rimmed mechanism for moving the clamping cams, a block brake with a drive, characterized in that, in order to improve accuracy by providing adjustable clamping force, it is equipped with a gearbox, one central wheel of which machine with a spindle machine, and the other with a spiral disk, and the gearbox housing is designed to interact with the above brake, the drive top0 can be made in the form of a pneumatic cylinder with adjustable force on it current. FIG. g ///////// (rig. 3