SU1662848A1 - Device for dumping vibration of wood-cutting saws - Google Patents

Abstract

The invention relates to woodworking machinery and can be used in the woodworking industry. The purpose of the invention is to increase the reliability of vibration damping. The device for damping oscillations of wood cutting saws comprises a base 1, a drive shaft 2 with a circular saw 3, main electromagnets 4 and diametrically mounted electromagnets 6 of magnetization. A synchronization disk 8 with reflective marks 9 is rigidly fixed on the shaft 3. The device also contains an optocoupler 10 optocoupler, the sensing diode of which is connected to the input of the amplifier 7. The disk 8 rotates with the saw shaft 2. The reflected light flux from the labels goes to the sensing photodiode the optocoupler 10, which generates the power pulses at the output of the amplifier 7. These pulses create magnetizing current pulses supplied to the electromagnets 6 magnetization, while at their ends, located to the saw blade 3, the pole N is bent, and the opposite side of the saw blade reverses to the pole S. The ends of the permanent electromagnets 4 have the pole N, so the saw blade all the time will experience a moment of electromagnet 4 being drawn into the gap, and electromagnetic forces applied to the disk itself the occurrence of the process of oscillation of the disk. 3 il.

Description

The invention relates to woodworking machinery and can be used in the woodworking industry.

The purpose of the invention is to increase the reliability and efficiency of damping by eliminating inertia.

Figure 1 shows the device, a general view; figure 2 is the same, top view; FIG. 3 shows timing diagrams of synchronizing light pulses (a), timing diagrams of the magnetizing current of electromagnets (b), and timing diagrams of the variation of the electromagnetic moment in the gap of the magnetizing magnetization (c).

A device for damping oscillations of wood cutting saws comprises a base 1, a drive shaft 2 with a circular saw 3, main electromagnets 4 connected to a power supply unit 5 and diametrically mounted additional magnetizers 6 of magnetization. The electromagnets 6 are connected to the output of the amplifier 7.

A synchronization disk 8 with reflective marks 9 is rigidly fixed on the shaft 3.

The device also includes an open optical channel optocoupler 10 containing a radiating diode connected to a constant voltage source and a sensing diode connected to the input of amplifier 7. The position 11 indicates the timber to be sawn.

The device works as follows.

When the shaft 2 rotates, the disk 8 with reflective marks 9 also rotates. The reflected light flux from the marks enters the sensing photodiode of the optocoupler 10, therefore, if there are four reflective marks per revolution of the shaft 2, i.e. during period T, four optical pulses are formed, which in turn form four short power pulses at

the output of the amplifier 7, which leads to the formation of short magnetizing current pulses supplied to the electromagnets 6 magnetization.

The process of interaction of the saw 3 with the electromagnetic field in the air gap of the magnets 6 is as follows.

The magnetization windings 6 of the magnetization are connected in such a way that when magnetization pulses are applied at their ends located on the saw blade 3, a pole N appears. The previous part of the saw blade 3 is pulled by the electromagnetic field into the air gap, magnetized into the N pole of the same name and pushed out of the air gap in the opposite direction. Thus, when a magnetizing pulse is applied, an additional moment arises, which draws the saw blade into the air gap.

When the saw blade is magnetized in the air gap of the electromagnet 6 magnetizing, the opposite side of the saw blade 1 reverses to the pole S. The ends of the permanent electromagnets 4 located to the saw blade have the pole N, therefore the saw blade under its magnetization reversal by the electromagnets 6 all the time is pulled into the air a gap of electromagnets 4, and electromagnetic forces are applied to the disk itself, preventing the occurrence of a disk oscillation process. Since the re-magnetization process is almost an instantaneous process, the speed of rotation of the saw blade in this control process can be arbitrarily large. The electromagnetic stress of the saw eliminates its oscillations, and in addition, there are no reasons for the occurrence of self-oscillations in this control circuit.

Claims (1)

Apparatus for damping vibrating wood cutting saws, including electromagnets symmetrically located relative to the saw, and an amplifier, characterized in that, in order to increase the reliability and efficiency of damping by eliminating inertia, the device is equipped with additional electromagnet magnetizers installed diametrically opposed to the main, connected to the output of the amplifier, an optocoupler with an open optical channel, the photodiode of which is connected to the input of the amplifier, and located in optical contact with the optocoupler rigidly mounted on the saw shaft, a disk with four reflective marks. FIG. 2 one b ABOUT P eight -F Figz / - L