SU405672A1 - ELECTRIC SCATTERS12 - Google Patents

Description

The invention relates to the metallurgical industry and can be used when cutting continuously moving steel.

Flying scissors are known, which contain a differential velocity equalization mechanism, made in the form of a differential and a hinged four-bar.

In order to expand the range of matching the speeds of the knives and the strip, the differential mechanism of the proposed scissors is equipped with a block of interchangeable gears installed between the differential and the hinged four-way pulley.

The drawing shows the kinematic scheme of the proposed scissors.

Flying shears contain a leading 1 and a driven 2 drums with one or more pairs of interacting knives attached to them and a differential mechanism made in the form of a differential and articulated four-chin.

The differential comprises a drive shaft 3 with a wheel 4 interacting with the satellites 5 of the carrier 6, through which the rotation is transmitted to the driven wheel 7 having internal gearing. The wheel support 7 is the driving drum 1 of the cutting device.

The hinge four-bar contains crank shaft 8, connecting rod 9 and stud 10, rigidly connected to carrier 6 of the differential. On

the finger of the crank shaft 8 is planted eccentric sleeve //, the eccentricity of which is equal to the eccentricity of the finger crank shaft. The crank length is determined by the relative position of the eccentricities of the // sleeve and the finger of the crank shaft 8. The position of the eccentric sleeve relative to the finger of the crank shaft is fixed by the device 12.

The drive shaft of the differential is associated with a crank shaft with a gear train consisting of wheels 13, 14 and a mobile unit 15, which, depending on the position, can interact with one of the wheels 13, 14.

The drum scissors is driven through the drive shaft 5, which, through the wheel 4 of the differential and the satellites 5, transmits the movement of the wheel 7. Simultaneously from the shaft 5, through one of the wheels 13, 14 and the block / 5, the rotation is transmitted to the crank shaft 8 of the hinge four-bearing bearing. The crank shaft through the connecting rod 9 and the stud W leads to the oscillation of the carrier of the differential. The addition of speeds on the wheel 7 occurs in a known manner for the differential. Due to the oscillatory movement of the carrier, the total speed of the wheel 7 has a pulsating character relative to the speed component of the wheel 4 with a period equal to the turnover period of the crank shaft. In the case of one cut per revolution of the cutting device, the period of the pulsating change in the speed should coincide with the rotational period of the cutting device, i.e., if the differential mechanism does not interfere with the cutting device, the speed of the crank shaft should be equal to the speed of the cutting device. Taking into account the gear ratio from wheel 4 to wheel 7 when the driver is stopped, it is possible to choose such a gear ratio from wheel 13 or 14 to block 15, at which this equality holds. Each number of cuts corresponds to its gear ratio of wheels 13, 14 to the block / 5, which ensures the agreement of the number of periods of pulsating change of speed with l. the number of cuts per revolution of the cutting device. The required amplitude of change in speed, determined by the length of the sheets being cut, is controlled by changing the length of the crank, which is carried out by turning the eccentric bushing AND relative to the crank eccentricity.

Subject invention

Flying shears containing a differential speed equalization mechanism, made in the form of a differential and a hinged four-link, characterized in that, in order to expand the range of matching the speeds of the knives and the strip, the differential mechanism is equipped with an interchangeable gear unit installed between the differential and the hinged four-link.

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