RU1768321C - Vibration exciter - Google Patents

Abstract

The invention relates to a vibration technique. The purpose of the invention is to increase reliability and efficiency. The vibration exciter contains an unbalance made in the form of a hollow cylindrical glass with an unbalanced load fixed on the inner end side of the glass. A rotary sleeve is mounted on the drive shaft, on which an unbalance is fixed, made in the form of a cylindrical insert with a de-balance weight fixed to its inner end side. The unbalanced loads are made in such a way that their centers of mass lie in one plane perpendicular to the axis of rotation of the drive shaft. 1 s P. f-ly, 4 ill.

Description

The invention relates to a vibration technique and can be used as a source of disturbing forces in machines and installations of vibration action.

A vibration exciter is known, comprising a housing, a drive shaft located therein, a fixed unbalance mounted on the shaft, an unbalanced rotary in the circumferential direction, mounted on the sleeve with an external thread, and a mechanism for adjusting their relative position, made in the form of a screw sleeve mounted for translational movement relative to a drive shaft, one end of which is provided with internal splines associated with the external splines of the drive shaft, the other end is made with an internal screw non-self-brake scheys thread associated with the external screw thread of the sleeve nesamotormoz scheys rotary unbalanced mass and the intermediate portion of the sleeve via a bearing associated with the adjusting screw.

The vibration exciter has a low accuracy of controlling the magnitude of the disturbing force due to the presence of gaps in the spline and screw engagement of the movable sleeve of the control mechanism and the relatively small stroke of the control sleeve.

The closest to the invention in technical essence and the achieved result is a vibration exciter comprising a housing, a drive shaft located therein, fixed and movable unbalances, the centers of mass of which are located in a plane perpendicular to the axis of the drive shaft, a sleeve mounted around the drive shaft rotatably mounted around the axis, and the adjustment screw mounted coaxially to the drive shaft with a sleeve and with a bearing at its end.

The aim of the invention is to increase the efficiency of vibration exciters.

Figure 1 schematically shows a General view of the vibration exciters; figure 2 - section aa in figure 1 with unbalanced loads,

sl c

vi about

00

C)

Yu

divorced relative to each other by 180 °; in Fig.Z - section bB in Fig.1 with fully reduced unbalanced loads.

The vibration exciter consists of a housing 1, in which the drive shaft 2 is rotatably mounted, on which an unbalance 3 is fixedly fixed, made in the form of a hollow, cylindrical glass with an unbalanced load 4, mounted on the inner end side of the glass 3. A rotary sleeve 5 is mounted on the drive shaft on which the unbalance 6 is fixed, made in the form of an unbalanced insert with an unbalanced load 7 fixed on its inner end side. The unbalanced loads 4 and 7 are made in such a way that their centers of mass lie in the same plane perpendicular to the axis of rotation of the drive shaft 2.

Between the rotary sleeve 5 and the drive shaft 2 there is an elastic element, for example a cylindrical torsion coil spring 8, one end of which is fixed on the drive shaft 2 and the other on the rotary sleeve 5. The outer cylindrical surface of the sleeve 5 is equipped with a non-self-locking thread 9, which moves an adjusting sleeve 10 having a non-self-locking thread 11 and a non-self-locking thread 12 connecting it to the drive shaft 2, a portion of which is equipped with a non-self-locking thread 13. The threads 9,11,12,13 have the same direction s, but a step different from the thread pitch of 9.11 threads 12,13. The adjusting sleeve 10 is connected through a bearing 14 to a sliding housing 15 connected to two cylindrical rods 16 connected by a plate 17, in the center of which there is a threaded hole 18 through which an adjustment screw 19 passes, moving the plate 17 reciprocatingly. The drive shaft 2 is connected to the drive motor 21 through a coupling 20.

Vibration exciter works as follows.

The imbalance 6 is rotated relative to the unbalance 3 so that the weights 4 and 7 are rotated 180 ° relative to each other by means of an adjusting screw 19, which during rotation translationally moves the extension housing 15 connected to the adjusting sleeve 10.

With the translational movement of the sleeve 10 due to the difference in steps between the non-self-locking threads 9,11, and 12, 13, the sleeve 5 is rotated relative to the drive shaft 2. Together with the sleeve 5, the unbalance 6 is rotated.

Then turn on the drive motor 21, which through the coupling 20 transmits rotation to the drive shaft 2. After the drive shaft 2 has set the required number

revolutions with the adjusting screw 19 set the set value of the magnitude of the disturbing force. When the drive shaft 2 rotates, the bushings 5 and 10 rotate with it, but the rotation is not transmitted to

0 retractable housing 15 associated with the adjusting screw 19, due to the presence of the bearing 14. The torsion spring 8 is deformed during rotation of the sleeve 5 relative to the drive shaft 2 and selects

5 clearances in threads 9.11 and 12.13.

The installation of an elastic element and the presence of a thread between the drive shaft and the adjusting sleeve connected to the rotary sleeve of the moving unbalance with threads of the same direction, but of a different step, increases the accuracy of controlling the magnitude of the disturbing force. Implementation of unbalances in the form of a hollow cylindrical cup with a cylindrical

5 insert increases the reliability of the exciter and reduces the noise level during its operation.

The implementation of a fixed unbalance in the form of a hollow cylindrical cup and a rotary unbalance in the form of a cylindrical insert included therein increases the reliability of fastening of the unbalances and facilitates the adjustment of the disturbing force. The shift of the center of gravity of unbalanced weights in one plane perpendicular to the axis of rotation of the drive shaft increases the efficiency of the vibration exciter, since in this case the disturbing force acts only in the radial

0 direction.

Claims (2)

Formula 1, A vibration exciter comprising a housing, a drive shaft located therein, fixed and movable unbalances, the mass centers of which are located in a plane perpendicular to the axis of the drive shaft, a sleeve enclosing the drive shaft mounted rotatably around ax / 1 and installed coaxial with the drive shaft, an adjusting screw with a fork and with a bearing at its ends, characterized in that, in order to increase efficiency, the fixed unbalance is made in the form of fixed on the drive 5 to the shaft and the cup enclosing it and fixed on its inner end face of the mass, and the movable unbalance is the form of the second mass fixed to the sleeve and coaxially to the disk cup and fixed to it from the side facing the bottom of the cup. 2. The vibration exciter according to claim 1, characterized in that, in order to increase reliability, it is provided with one end fixed to the drive shaft and the other on the sleeve with an elastic element and a threaded sleeve covering the drive shaft and the sleeve and connecting them by threaded connections made on the drive shaft, on the outer surface of the sleeve and on the inner surface of the threaded sleeve, the direction of the thread between the drive shaft and the threaded sleeve in the same direction, and the thread pitch is different. 17 / AND J FIG. 1 sixteen / sixteen five. 2 6-V 76 five.3 Aa h 4-i- x Vx h { FIG. 4