SU865118A3 - Aerohydrodynamical hydroexciter - Google Patents

Abstract

In a pneumatic vibrator compressed air flows through an inlet 1a into a cylindrical housing 1 having therein a rotary piston 4. Piston 4 thereby rotates while rolling on a central member 3 without touching the inner cylindrical surface of housing 1. Used air escapes through apertures 2a in at least one of two side plates of the housing 1. <IMAGE>

Description

(54) AEROGHDRODYNAMIC VIBRATOR The invention relates to vibration technology and can be used in various industries. A vibration exciter operating on compressed air is known. It is another pressure medium of the current medium. Such a vibration exciter comprises a housing with an inlet channel, end caps forming an internal cylindrical cavity with the housing, and in one of which the output is arranged circumferentially upward, housed in the housing and a rigidly fixed axis and an annular element placed coaxially in the cylindrical axis. cavity with a minimum gap relative to its inner surface when the inner surface of the annular element contacts the axis IJ. However, as the annular element passes over the holes, an uneven movement of air occurs, which is thrown out by jerks, which causes a strong mum. In addition, for such exciters, there is a loss due to damping, turbulence, and friction on the end covers of the housing. The aim of the invention is to reduce energy loss and noise reduction. In order to achieve this goal, the second end cap also has output openings located around the circumference of the hole, and the inlet flange is formed by a restriction section remote from the cavity and an expansion section whose geometrical axis runs tangentially to the circle on which the outlet openings are overlapped by an annular element 45-55% in the process. Figure 1 shows the exciter, a cross-section, in figure 2 the same, a longitudinal section. The aero-hydraulic vibrator comprises a housing 1 with end caps 2 forming a cylindrical cavity 3 with the housing, an input channel 4 is made in the housing, and outlet openings 5 in the covers 2. The housing is provided with an axis 6. In the cylindrical cavity 3 there is an annular element 7 so that during operation, it has a minimum clearance a with the inner surface of the cylindrical cavity 3, while the inner surface of the annular element 7 is in contact with the b axis. in the dry position, the ends of the ring element 7 overlap about half of all the outlet openings 5.

The input beam 4 is placed symmetrically between the covers 2, and its geometrical axis runs tangentially to the circle on which the outlet holes 5 are located. The input flange 4 (its input part, tapering, minimum critical section, smoothly passing into the expansion), performs that the rate of air flow through the ducts is continuously increasing.

Vibro works as follows.

Compressed air, which is fed to the inlet channel 4, leaves it at high speed into the cylindrical cavity, which carries the air in the cavity. In this case, an air wedge is formed that kicks the ring element 7. The ring element, resting on the axis, rolls along it. Since the mass of the ring element is eccentric to the axis of rotation, a centrifugal force arises, which excites sinusoidal oscillations. On the other side of the air wedge and the annular element, a rather large part of the cavity is formed with open outlet openings. Air is annularly pushed through them into the atmosphere, discharging the annular element and not the mesh, thereby rotating it.

Located near the inlet kangsha outlet openings contribute to additional suction of air from the atmosphere. Due to the large number of inlets, conditions are created for a continuous and calm outflow of air, which is an enech-1e; and ... And reduces the level of the resulting igoux ml.

This embodiment of the aero-hydrodynamic vibration exciter creates rational conditions for the rotation of the annular element, reducing the inevitable loss of energy.

Claims (1)

1. US patent 3229961, CL. 259-1, 1964.