SU3502A1 - Device for driving impact machines - Google Patents

Description

devices for driving drums

machines.

to the patent of N. S. Yapolsky, dated June 16, 1920 (for Article. Spec. No. 74061).

On granting a patent published June 30, 1928. The patent is valid for 15 years from September 15, 1924.

The proposed device is intended to drive percussion machines (copra, hammers, rams, etc.) whose links have a variable speed using a variable speed magnetic field formed by a multiphase current of a variable number of periods.

FIG. 1a of the drawing shows a section along ab of FIG. Ib; in fig. 16 is a longitudinal section of the fixed cores and the core in the form of a plate moving in the cracks formed by the cores; in fig. A 1c curve of the approximate distribution of magnetic induction over the length of a magnetic field at one of the time points; in fig. 2a shows a cross section in ab. 2b; in fig. 2b is one of the forms of the core in the form of a plate with thickening on the sides (bridges); in fig. Za and bb-longitudinal and transverse cuts

the core, which is supplied with a reciprocating motion for transmitting, for example, a straight hammer hammer to the woman, using, for example, a crank and a connecting rod; in fig. 4 is a diagram of such a device with a bark, according to FIG. Za and Zb; in fig. 5 is a diagram of a lever hammer set in motion by a rotating device; in fig. 6 is a modification of the device shown in FIG. 2a and 2b.

The stationary part of the device (Fig. 1a and Fig. 16) consists of two cores W and M- consisting of iron sheets insulated from each other with O-O multiphase windings superimposed on them. When passing through the windings of a multi-phase current (the letter обознач denotes The resulting magnetic fluxes, shown in Fig. b (dotted line), form

the magnetic field, which can have, when switching the current, a variable-return movement along the y axis. FIG. 1c shows the approximate distribution of magnetic induction over the length of the floor at one of the points in time.

The mobile part consists of mechanically connected to any impact element (for example, woman) of the core. The latter is a copper or aluminum plate with transverse slits, which can move under the action of the magnetic field of the MI-Mg cores in the slits formed last. According to FIG. 2a and 2b, the crust wall is supplied with thin transverse slots for the correct direction of the currents passing through it (perpendicular to the direction of movement of the magnetic field). The arrangement of the currents along the wavelength of the magnetic field will be approximately as indicated by the dotted line in FIG. 2a

In a modification of the device according to FIG. For and 3b, the cores M and M are located like the stator and the rotor of an induction motor. The core W is shaped like a ring, and the core L is the a-shape of a cylinder, and the multi-phase windings are located on the inner and outer surfaces of the cores. The anchor u has the shape of a cylindrical sleeve with thickened flanges, mounted on the shaft w with the aid of the sleeve -o.

An anchor in the form of a sleeve can, under the action of a field of cores M and / Id, oscillatory movement about the axis of the latter. In some machines, for example, high power hammers, it is advantageous not to directly drive a straight moving shock link (hammer hammer) with a straight back moving floor, but to use the reciprocating rotational movement of the core shown in FIG. For and 3b, and from it already to transmit the linear-return movement to the woman with the help of the mechanism, curvature and shatun. FIG. 4 shows a diagram of such a device. The anchor moves clockwise and against it: while woman B, moving back and forth, squeezes the forgings K, which lies on the anvil N. In this case, the further the crimping is, the smaller (according to the property of a crank-thrust mechanism) the speed of the woman In to the velocity of the core and the greater is the ratio of the force pressing the forging to the circumferential force applied to the core. In general, this device makes it possible, by accumulating manpower in a relatively light cortex, but brought into rapid movement by the cortex y, to exert great force through a linearly moving link having a small speed. All this is more important for high power hammers, where a woman’s high speed is not always useful. A hammer built according to the scheme shown in FIG. 4 represents, as it were, a transitional stage between the hammer itself and the press.

FIG. 5 shows a diagram of a lever hammer driven by a rotary device.

In a modification of the device according to FIG. 6, the measles is made in the form of a grid of electrically non-magnetic material 1 (mainly copper or aluminum), through which currents mainly flow, but to reduce the magnetic resistance crossing the back of the magnetic field core, iron plates 2-2 are inserted into it or packs of iron sheets perpendicular to the back plane. In this case, the sheets (or packages) are paired with bridges, thus representing not only the magnetic conductor, but also the electric wire, through which part of the currents of the backrest of the cor.

The subject of the patent.

1. A device for driving shock machines, characterized in that its fixed part consists of two cores MI and Afg with multi-phase windings superimposed on them, creating, when passing a multi-phase current through them, a magnetic field that can have, when switching current, variable movement along the axis yy, and the movable part consists of a mechanically connected core with some impact element (for example, a woman), a core representing a copper or aluminum plate with transverse cuts, which can move c under the action of the magnetic field of the cores M in the slit formed last (Fig. la and 1 &).

2. Alteration of the device described in section 1, characterized in that the cuts of the core are provided with plates 2-2 of magnetic material (Fig. 6).

3. A variation of the device described in claim 1, characterized in that the core M is shaped like a ring, and the core L is shaped like a cylinder, the multiphase windings being located on the inner and outer surfaces of the cores, and the fact that the bore is shaped like a cylindrical sleeve which may have under the action of the field of cores MI and M. oscillatory movement about the axis of the latter (FIG. 3A and 3B).