RU168891U1 - PNEUMATIC VIBRATOR - Google Patents

Abstract

The proposal relates to devices for producing mechanical vibrations and can be used to intensify technological processes. The inventive utility model solves the problem of expanding the range of regulation of the parameters of the vibrational motion. The pneumatic vibrator operates as follows. When compressed air is supplied from the nozzle, the ball moves along an annular treadmill formed by the surfaces of the inner cavity of the cage, cylinder and side walls. In this case, under the action of centrifugal force applied to the center of mass of the ball, the cage makes a vibrational motion. Using a set of cylinders for balls of various diameters (from the minimum value to the maximum value, the value of which is almost equal to the radius of the inner cavity of the cage) provides control of the parameters of the vibrational motion of the cage in a wide In addition, to reduce the consumption of compressed air, the rolling body is made in the form of a roller, the length of which is equal to the distance between the side walls, and d The meter is equal to the height of the ring treadmill.

Description

The proposal relates to devices for producing mechanical vibrations and can be used to intensify technological processes.

Known ball pneumatic vibrator, comprising a housing having an internal cavity with an annular treadmill, which runs the ball, and nozzles for supplying compressed air to the cavity [1].

The closest analogue to the claimed utility model in terms of combination of features is a pneumatic vibrator containing a clip, the inner cavity of which has an annular treadmill rolled in by a ball, and nozzles for supplying compressed air, while the diameter of the ball can be changed without changing the overall external diameter filled with an elastic shell [2].

A disadvantage of the known pneumatic vibrators is the small range of regulation of the parameters of the vibrational motion (frequency and amplitude of vibrations) due to the limitation of the diameter of the ball to the dimensions of the total external diameter and the annular treadmill.

The inventive utility model solves the problem of expanding the range of regulation of the parameters of vibrational motion.

To solve the problem, the claimed utility model contains the following essential features distinguishing from the closest analogue: a pneumatic vibrator includes a cylinder with side walls installed in the inner cavity of the cage and forming an annular treadmill formed by the surfaces of the inner cavity of the cage, cylinder and side walls, the diameter of which equal to the diameter of the inner cavity of the cage, and the casing is made with the possibility of replacing the cylinder and the ball with a cylinder and a ball with other sizes.

In addition, to reduce the consumption of compressed air, the rolling body is made in the form of a roller, the length of which is equal to the distance between the side walls, and the diameter is equal to the height of the annular treadmill.

In contrast to the prototype, the claimed utility model allows, by reinstalling the cylinders, to change the diameter of the ball from the minimum value to the maximum value, the value of which is almost equal to the radius of the inner cavity of the cage and, accordingly, provides for the adjustment of vibrational motion parameters in a wide range.

The essence of the claimed utility model is illustrated in the drawing. In FIG. 1 shows a general view of a pneumatic vibrator (where 1 is a clip, 2 is a cylinder, 3 is a side wall, 4 is a ball, 5 is a nozzle, 6 is an exhaust hole), FIG. 2 shows a set of cylinders (where 2 is a cylinder, 3 is a side wall, 4 is a ball), and FIG. 3 shows the installation of the roller in the cage (where 1 is the cage, 2 is the cylinder, 3 is the side wall, 7 is the cushion).

The pneumatic vibrator includes a clip 1, a cylinder 2 with side walls 3 mounted in the inner cavity of the clip 1 and forming an annular treadmill formed by the surfaces of the inner cavity of the clip 1, cylinder 2, side walls 3, the diameter of which is equal to the diameter of the inner cavity of the clip 1, and rolled ball 4, a nozzle 5 for supplying compressed air, and the holder 1 is made with the possibility of replacing the cylinder 2 and the ball 4 to the cylinder 2 and the ball 4 with other sizes. In addition, to reduce the consumption of compressed air, the rolling body is made in the form of a roller 7, the length of which is equal to the distance between the side walls 3, and the diameter is equal to the height of the annular treadmill.

Pneumatic vibrator operates as follows. When compressed air is supplied from the nozzle 5, the ball 4 moves along an annular treadmill formed by the surfaces of the inner cavity of the holder 1, cylinder 2 and side walls 3. Moreover, under the action of centrifugal force applied to the center of mass of the ball 4, the holder 1 makes a vibrational movement.

The use of a set of cylinders 2 for balls 4 of various diameters (from the minimum value to the maximum value, the value of which is almost equal to the radius of the inner cavity of the cage 7) provides for the regulation of the parameters of the vibrational motion of the cage 1 in a wide range.

In addition, to reduce the consumption of compressed air, the rolling body is made in the form of a roller 7, the length of which is equal to the distance between the side walls 3, and the diameter is equal to the height of the annular treadmill.

Thus, the claimed technical solution is a pneumatic vibrator comprising a cage with an internal cavity, a nozzle for supplying compressed air, the vibrator comprising a cylinder with side walls mounted in the inner cavity of the cage and forming an annular treadmill formed by the surfaces of the inner cavity of the cage, cylinder, side walls, the diameter of which is equal to the diameter of the inner cavity of the cage, and rolled around the ball, a nozzle for supplying compressed air, and the casing is made with the possibility of replacing the cylinder and ball to cylinder and ball with other sizes; ensures the achievement of the technical result, which consists in regulating in a wide range of parameters of the vibrational movement of the cage, which will expand the scope of the pneumatic vibrator and increase the efficiency of its use.

INFORMATION SOURCES

1. Ball pneumatic vibrator. Copyright certificate 163516 of the USSR, В28С, published on 06/22/1964.

2. Pneumatic vibrator. Patent No. 2291749, publ. 01/20/2007. IPC V06V 1/16; B06B 1/18.

Claims (2)

1. Pneumatic vibrator, comprising a cage with an internal cavity in which there is an annular treadmill rolled around the ball, and a nozzle for supplying compressed air, characterized in that the vibrator comprises a cylinder with side walls mounted in the inner cavity of the cage and forming an annular treadmill, formed by the surfaces of the inner cavity of the cage, cylinder and side walls, the diameter of which is equal to the diameter of the inner cavity of the cage, and the casing is made with the possibility of replacing the cylinder and the ball on the cylinder bulb with different dimensions. 2. The pneumatic vibrator according to claim 1, characterized in that the rolling body is made in the form of a roller, the length of which is equal to the distance between the side walls, and the diameter is equal to the height of the annular treadmill.