RU2048929C1 - Vibrating exciter - Google Patents

Abstract

FIELD: seismic prospecting. SUBSTANCE: vibrating exciter has a housing, shafts with unbalances mounted in the housing and made in the form of half-disks set up on the axes perpendicular to the shaft ones. A curvilinear groove is made in each half-disk. The mechanism of regulation of the unbalance position is made in the form of a slide block with a dowel interacting with the curvilinear groove of half-disks, is mounted in the housing between the half-disks and can shift along the shaft axes. EFFECT: enhanced reliability. 1 cl, 3 dwg

Description

 The invention relates to vibration technology and can be used in seismic exploration.

Known vibration exciter containing an unbalance mounted on the shaft and an adjusting device in the form of a concentric movable axis of the shaft of the conical bowl, the unbalance made pear-shaped and pivotally mounted on the shaft end [1]
The disadvantage of this device is the low efficiency of the regulation of the amplitude of the force due to the large friction forces in the drive turning unbalance.

Known vibration exciter containing several shafts with unbalanced masses in the form of half-disks, mounted in the longitudinal grooves of the shafts in bearings on axes perpendicular to the groove planes. Half-disks with connecting rods connected to a device for regulating unbalance [2]
The disadvantage of the vibration exciter is the low efficiency of the control device due to the presence of unbalanced mass of the connecting rods, which causes high friction forces at high frequencies in the guides of the unbalance control device.

Known vibration exciter containing a housing, shafts installed therein with rotary unbalances, mounted on axes perpendicular to the axes of the shafts, and mechanisms for regulating the position of unbalances [3]
The disadvantage of the vibration exciter is the low efficiency of the unbalance control device at high shaft speeds and large force amplitudes.

 The aim of the invention is to increase efficiency.

 The goal is achieved by the fact that in a known vibration exciter containing a housing, shafts installed therein with rotary unbalances made in the form of half disks mounted on axes perpendicular to the shaft axes, and mechanisms for regulating the position of unbalances, a curved groove is made in each half disk, and each regulation mechanism the position of the unbalance is made in the form of a slide installed between the half-disks in the housing with the possibility of moving along the axes of the shafts with a spike interacting with a curved groove.

 The vibration exciter is equipped with an intermediate support located on the axis of rotation of the half-discs.

 In FIG. 1 shows a vibration exciter; in FIG. 2, section AA in FIG. 1; in FIG. 3 view B in FIG. 1.

 The vibration exciter contains a housing 1 with shafts 3 installed in it in bearings 2 with unbalanced masses made in the form of half disks 4. The latter are installed in the shafts 3 on the axes 5 in the same angular position. The unbalance control device of each shaft contains a slider 6 with a spike 7 included in the groove 8 of the half-disk 4. The slider 6 is connected to the rod 9 of the unbalance control drive (not shown) and is installed in length in three guides 10, 11 and 12 so that its length is less than the distance between the guides 10 and 12 and more than the distance between the guides 10 and 11 or 12 and 11. This reduces the size of the vibrator. The guide 11 is an intermediate support mounted on the axis 5 and included in the groove 13 of the sliders. The groove 8 can be made curved.

 Vibration exciter works as follows.

 Before starting the half-disk 4 using the drive are installed in a predetermined position along an angle relative to axis 5. Then, using a motor (not shown), the shafts 3 (Fig. 3) are rotated in different directions. When changing the number of revolutions of the shafts, the amplitudes of the force are controlled by the drive by turning the half-disks by a predetermined value due to the fact that the slider 6 is moved by a thrust 9 in the guides 10 and 11. In this case, the spike 7, moving along the groove 8 of the half-disk 4, moves the latter around the axis 5 to the desired position. Thereby, the amplitude of the exciter force is regulated.

 The curvature of the groove 8 provides a more accurate change in the angle of rotation of the half-disk and, therefore, a more accurate maintenance of a given amplitude of the force. Thus, an increase in the efficiency of regulation of the exciter is provided.

Claims (2)

 1. VIBRATOR, comprising a housing, shafts installed in it with rotary unbalances made in the form of half-disks mounted on axes perpendicular to the axes of the shafts, and mechanisms for regulating the position of unbalances, characterized in that, in order to increase efficiency, a curved groove is made in each half-disc and each mechanism for regulating the position of the unbalances is made in the form of a slide installed in the housing between the half-disks with the possibility of moving along the axes of the shafts with a spike interacting with a curved groove.  2. The vibration exciter according to claim 1, characterized in that it is equipped with an intermediate support located on the axis of rotation of the half-discs.

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