SU1199983A1 - Vibrator - Google Patents

Abstract

1. VIBRATOR, containing a cylindrical case with channels for supplying and discharging the working medium, mounted on the base, and a pulse generator, made in the form of a pneumatic resistance such as a nozzle valve, one of the elements of which is connected to a drive rotor motor with a Segner wheel, made with a profiled surface, about the t of which is due to the fact that, in order to expand the functionality and increase the reliability, the flap is made in the form of an annular elastic tape installed between her body surface and the rotor and is provided with an element change the profile of its surface, the rotor set throttle nozzle and the housing is mounted on the base in the guide with the possibility of vertical movement and forming with the base surface working fluid outlet channel. 9 2. The vibrator according to claim 1, which is based on the fact that the element for changing the flap profile is made in the form of adjusting screws. CO WITH CO 00 with

Description

one

The invention relates to a vibration technique and can be used in technological processes of instrument-making based on the use of vibrating elements.

The purpose of the invention is to enhance functionality and increase reliability.

Figure 1 shows the vibrator cut j in figure 2 - section aa in figure 1.

The vibrator contains a cylindrical body 1 with channels for supplying 2 and removing 3 working medium, the base 4 is a pulse generator made in the form of a pneumatic resistance of a nozzle-damper type, the nozzle 5 of which is connected to the rotor 6 of the Segner wheel motor, and the resistance damper 7 is in the form of tapes with profiled behavior 8 and installed between the inner surface of housing 1 and the rotor 6. In case I, there is an element for changing the profile of the valve 7}, made in the form of adjusting screws 9. The flanges 10 of case 1 are attached to Warping by guide pins 11 housed in interchangeable bushings 12. The motor has a nozzle 13 associated with the operating medium supply channel 2.

The following oscillation modes can be implemented in the vibrator: vibratory, sinusoidal and non-sinusoidal, shock-vibrational and .rotational.

The vibration sinusoidal mode is realized in the case when the flanges 10 of the housing 1 garden to the guide pins 11 on a sliding fit, and the profiled surface 8 of the flap 7 has the shape of a zllipse and the magnitude of the driving force varies sinusoidally. The oscillations occur with a very small amplitude.

The non-sinusoidal vibration mode is realized when the surface 8 of the flap 7 has a different shape than the elliptical one, and the driving force varies according to a law different from the sinusoidal one. The housing 1 is mounted on a pin x 11 and on a sliding fit.

Shock-vibration mode is realized if in replaceable

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the sleeves 12 are grooves. In this

In the case of case 1, a reciprocating movement is performed, in which case stroke length 1 is equal to the difference

5 sizes between the length of the groove and the diameter of the pin 11. On the stroke length, the housing 1 moves with acceleration under the action of the driving force. At the end of the stroke, the shock contact of the housing 1 and the pin 11 occurs, and at this, the profiled surface 8 of the flap 7 has the shape of an ellipse, the small axis of which passes through the axis of the screws 9. In the rotational (circular) mode

15 oscillations of the valve 7 has the shape of a circle. The driving force imeeT is a constant and makes a circular rotation. In the replaceable sleeves 12, holes are made, the diameter of which is determined by the diameter of the pin 11 and the magnitude of the amplitude of oscillations of the housing 1. The axis of the housing 1 at the same time rotates around a circle with a diameter

25 equal to the difference between the hole diameter of the sleeve 12 and the diameter of the pin 11. In this mode, there is continuous contact between the housing 1 and the pins 11.

30 The law of change of the driving force is regulated by screws 9. In the particular case, if there are only screws 9 and the absence of the valve 7, the law of change of the driving force can be obtained in the form of rectangular pulses.

The exciter is as follows.

The compressed air through the channel 2 enters the nozzles 5 and 13. Under the action of the reactive force of the jet of the nozzle 13, the rotor 6 begins to rotate. When this jet of the nozzle 5 is directed along the radius of the rotor. 6 to the profiled surface 8 of the shutter 7. Since the surface 8 has the shape of an ellipse, the jet force of the nozzle 5 acting through the shutter 7 on the housing 1 is due to a change in the distance between the end face of the nozzle 5 and the inner surface. 8 will vary according to the law defined by the shape of the flap 7.

Thus, the pressure force of the jet of the nozzle 5, which is a compelling force, causes the housing 1 to rotate with the rotational speed of the rotor 6. The housing 1 transmits vibration to some 31

either a technological device installed on it or associated with it. Since the internal cavity of the housing 1 is closed, and the housing 1 is mounted on pins x 11 with the possibility of a gap between it and the base 4, the air coming out of the nozzles 5 and 13 lifts the housing 1 and rushes into the gap, creating the effect of an air cushion, the decrease in power consumption, but the exciter of oscillations.

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The frequency of oscillation of the housing 1 is controlled by turning, the nozzles 13 up or down, as this reduces the projection of the force, which causes 5 rotation of the reel 6, and the magnitude of the exciting force remains unchanged. Adjusting with screws 9 the dimensions of the main axes of the valve 7, change the magnitude of the driving force, leaving unchanged

10, the rotational speed of the rotor 6, the small mass of the rotor 6 allows for a small time constant.

Claims (2)

1. VIBRATOR, comprising a cylindrical body with channels for supplying and discharging a working medium, mounted on the base, and a pulse generator made in the form of pneumatic resistance of the nozzle type, one of the elements of which is connected to a rotary drive motor of the Segner wheel type, and the element is made with a profiled surface characterized in that, in order to expand functionality and increase reliability, the shutter is made in the form of an annular elastic tape installed between the inner surface the housing and the rotor, and is equipped with an element for changing the profile of its surface, a throttle nozzle is installed in the rotor, and the housing is mounted on the base in guides with the possibility of vertical movement and formation of a working medium outlet channel with the base surface. 2. Vibrator according to π, 1, which is characterized in that the element for changing the damper profile is made in the form of adjusting screws. FIG. 1