SU1518021A1 - Vibratory drive - Google Patents

Abstract

The invention relates to a vibration technique and can be used as a drive for vibration machines of various purposes. The aim of the invention is to enhance operational capabilities by creating elliptical directional vibrations. As the pulley rotates through the elastic mechanism, the shaft is driven. The presence of the elastic mechanism and the elastic connection between the eccentric and the shaft provide a cylindrical change in the speed of rotation of the shaft, which leads to the creation of elliptical vibrations. 2 hp ff, 3 ill.

Description

one

(21) 4394739 / 24-28

(22) 03/21/88

(46) 10/30/89. Bul No. 40

(71) Research Institute for the Kursk Magnetic Anomaly L. D. Shev Kova and Special Design Bureau for Underground Self-Propelled Mining Equipment

(72) Yu. I. Kudr vtsev and PF Deineko (53) 543.141 (088.8)

(56) USSR Author's Certificate No. 835529, cl. B 06 B 1/16. 1981

Author's certificate of the USSR No. 617084, cl. B 07 B 1/40, 1978.

(54) VIBRATION

(57) The invention relates to a vibration technique and can be used as a drive for vibration machines of various purposes. The aim of the invention is to enhance operational capabilities by creating elliptical directional vibrations. When the pulley is driven through an elastic mechanism, the shaft is driven. The presence of a second mechanism and an elastic connection between the eccentric and the shaft provides for a cy-, 1ind |) practical change in the speed of rotation of the shaft, which leads to the creation of elliptical oscillations. 2 h. the item of f-ly, 3 pl.

The invention relates to a vibration technique and can be used as a drive for vibration machines of various purposes.

The aim of the invention is to expand the operational capabilities by obtaining elliptical directional vibrations.

FIG. 1 shows the proposed vibrodrive, a general view; in fig. 2 is a view A of FIG. one; in fig. 3 - section BB in FIG. one.

The vibrodrive consists of a base 1, made, for example, in the form of a vibrating screen, in which the shaft 2 is mounted for rotation, with d 'balances 3. The shaft 2 is rotated by a driving element, made in the form of 4, mounted for rotation on the shaft 2 and fixed against axial displacement. At the end of the shaft 2, an eccentric is made in the form of a crank 5, on which the sleeve 6 is mounted.

so that by turning relative to va, 1a 2 it was possible to change the position of the springs 7 relative to the horizontal and, like, vertical, 1И The pulley 4 in rotational motion is associated with the VA, 1st 2 by means of an elastic mechanism, made in the form of a driver coupling consisting of a rigidly connected VA, Volume 2 of the driver 10 (see Fig. 3). The ends of the driver 10 are provided with forks in which pivoting stops 11 are installed with guide rods 12 arranged therein. The other ends of the rods 12 pass through pivoting stops 13, which are built in similarly to stops II and are rigidly connected to the pulley 4. Between the stops II and 13 posted wins 14.

The device works as follows.

When the pulley 4 rotates, the torque through the stops 13, the springs 14 and the stops 1 1 is transmitted to the driver 10 rigidly connected to the shaft 2. At this, the springs 14 are compressed.

At this moment, one of the springs 7 is compressed, and the other is stretched, and the forces of both springs are directed along the line connecting the axis of rotation of the shaft 2 and the Krimsipip 5. At

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|| () 1 ")} () of the shaft 2 at some angle the axis of the crank 5 is displaced, and between it and (n) Ba. ia 2 appears lightly due to K () torus spring 7 spins shaft 2. At the same time, springs 14, straighten also contribute to the shaft rotation, resulting in its speed increases, and its maximum value is reached when the curve approaches () 5 ii position, lep-pendicularly depicted in FIG. 2. P) and yes; 1 | 1 | 1 | of the rotation of the shaft 2, the crank 5 starts to compress, the lower spring 7, J upper stretch. This is required to complete, 1na energy, but therefore, va.1 2 starts to slow down, and springs | 14 us 14 are compressed, as the pulley 4, turning, overtaking eio. The name of the cKopocTii axis of the shaft 2 will be in the lower part ||, 1 () of the crank 5, the bottom of which is the upper side, and the vertical is the same. With further rotation of the shaft 2, the cycle of raising and lowering the speed of its rotation is repeated. Thus, the shaft 2 rotates with a constant current (). and his unbalances create a variable imperative | max effort; max 1 on which is 1 1 on which it occurs, but crank 5 but f () rizon, 1i, and min., 1– when crank 5 diss.

ve) 1-ika, | and (see Fig. 2). This rotation ds baFig .1

lances with a constant speed with the creation of a temporary cyclical driving force ensures elliptical dripping. In this case, the axis of the ellipse can be located both horizontally and at any angle to the horizon due to the possibility of rotation of the node 8 relative to the shaft 2.

Claims (3)

1. A vibrodrive comprising a base, an imbalance shaft mounted therein and a driving member for interacting with the shaft, characterized in that, in order to maximize the operational capabilities, it is provided with an eccentric fixed on the shaft end with a fixing unit elastically connected to the eccentric and rigidly connected to the base, and an elastic mechanism.mo.m, mounted on the shaft to interact with the driving element, the latter is installed with the possibility of rotation relative to the shaft. 2. Vibration drive according to claim I, characterized in that the elastic mechanism is made in the form of a powered coupling with spring loaded from it new builds. 3. Vibro drive on Mon. 1 and 2, characterized in that the fixing element is rotatably mounted relative to va, 1a. 0 View /} Phage. I 5-6 12 14 FI.5