SU1074781A1 - Method of stacking metal sheets - Google Patents

Abstract

METHOD OF LAYING METAL SHEETS INTO A STACK, which includes feeding the sheet with the feeder, braking the sheet with a running magnetic field and then dumping the sheet from the transporting body, characterized in that, in order to increase the reliability of laying the sheet by eliminating their release in the direction opposite to that of the running, braking the running magnetic the field is carried out in the direction coinciding with the direction of sheet supply, and the speed of the traveling magnetic field is set to no more than a given rate of sheet output from the feeder. LISTtg / 4 00

Description

The invention relates to methods for stacking metal sheets at high speeds and can be used in various industries where metal sheets are manufactured, in particular in units for the transverse cutting of strips and for finishing sheets of the metallurgical industry.

A known method of stacking metal sheets in a stack, including feeding the sheet with a feeding member, braking the sheet with a traveling magnetic field and subsequent discharge of the sheet from the transporting member [1].

The disadvantage of this method is that when feeding sheets of different lengths and at different speeds, which is inevitably caused by different friction of individual sheets on the centering lines of the conveyor and other mechanisms of the stacker, and, in turn, is determined by the state of the edge surface and the shape of the sheets, the braking process becomes unstable and possible ejection of individual sheets back, i.e. towards the movement. This is because the work of the braking forces arising from the movement of the sheet in an opposing traveling magnetic field with a decrease in the mass and speed of the sheets begins to exceed their kinetic energy supply. In this regard, the laying process also becomes unstable, which leads to a “gouging” of the sheets and a malfunction of the unit.

The purpose of the invention is: improving the reliability of laying the sheet by eliminating their ejection in the direction opposite to the feed.

The goal is achieved by the fact that according to the method of stacking metal sheets in a stack, which includes feeding the sheet by a feeding member, braking the sheet by a traveling magnetic field and subsequent discharge of the sheet from the conveying body, braking by the traveling magnetic field, is carried out in a direction coinciding with the direction of sheet feeding, the speed of the traveling magnetic the fields set no more than a predetermined output speed of the sheet from the feeding organ.

The drawing schematically shows a device that implements the method.

The device comprises a feeding member, made in the form of a conveyor 1, at the end of which a sensor 2 is mounted, a linear motor 3 installed in front of the pocket 4, and a spring-loaded stop 5 mounted on the back wall of the pocket 4 along the sheet feed.

The method is carried out as follows about ₅ times.

The sheet to be laid is transported by a feed conveyor 1 between the inductors of the linear motor 3, which is turned off at that time. As soon as the trailing edge of the sheet leaves the zone of the sensor 2, the ¹ θ linear motor 3 is switched on, the traveling magnetic field of which coincides with the direction of movement of the sheet, and its speed is less than the speed of sheet transportation. Due to the difference in sheet speeds of the traveling magnetic field, for example, the sheet feed speed is 5 m / s and the field speed is 1 m / s, a braking force arises against the movement of the sheet, as a result of which the sheet is decelerated. The linear motor in this case operates in generator braking mode 20. The maximum speed to which the sheet speed can slow down is close to the speed of the traveling magnetic field of the linear motor.

To obtain a low traveling magnetic field speed, the linear motor is fed with a current of reduced frequency from a special power source. After exiting the last sheet of the engine is switched off, and the sheet is reset at a reduced speed in the pocket 4, and finally stops a spring-loaded abutment 5. ³⁰ mo ment sheet discharge centered rulers (not shown).

Laying sheets can also be carried out at a field speed of zero. In this case, the linear motor operates in electrodynamic braking mode, i.e. its windings are powered by direct current, and the magnitude of the kinetic energy, which should be extinguished by the motor, is set less than the total kinematic energy. gii sheet to ensure its water from the engine and subsequent discharge.

The proposed method allows to stabilize the process of stacking metal sheets in a stack when changing their mass or speed, eliminates the possibility of ejecting sheets towards their movement, thereby ⁴⁵ reduces the accident rate and ultimately improves the performance of the devices where it is used.

The proposed method allows to stack metal sheets coming in for laying at a speed of up to 3 m / s.

Claims (1)

METHOD FOR LAYING METAL SHEETS INTO A STACK, including sheet feeding by a feeding body, braking of a sheet by a traveling magnetic field and subsequent discharge of a sheet from a transporting body, characterized in that, in order to increase the reliability of sheet laying by eliminating their ejection in the reverse feed direction ?, braking by traveling the magnetic field is carried out in the direction coinciding with the direction of sheet feed, and the speed of the traveling magnetic field is set to not more than a predetermined rate of exit of the sheet from the feeding organ. g