SU1620156A1 - Pneumatic vibration exciter - Google Patents

Abstract

The invention relates to a vibration technique and can be used in various sectors of the industry. The purpose of the invention is to reduce energy consumption by periodically blocking the internal channel of a hollow cable with a source of compressed air and increasing the efficiency of maintaining a constant exciting moment when the pressure of compressed air varies. In a jet of fluid from a hollow rod gi 7, shaft 2 spins up. As the speed of rotation of shaft 2 increases, the centrifugal force increases, connecting to the balance of 5, which moves to the periphery of 1 silt

Description

The invention relates to vibration technology and can be used in various industries.

The purpose of the invention is the reduction of energy consumption by periodically overlapping 5 of the internal channel of the hollow draft with a source of compressed air and increasing efficiency by maintaining a constant exciting moment when the pressure of compressed air changes.

The drawing schematically shows the proposed device.

The device comprises a base 1, on which the working shaft 2 is mounted rotatably, on which a pneumatic drive equipped with nozzles 3 is fixed.

A holder 4 is mounted on the shaft 2, on which the load is placed to create unbalance during operation. In order to ensure jq conditions of smooth start-up with a zero static moment, the unbalance is made in the form of a ball 5 pressed to the shaft 2 using a spring 6 fixed on one side to the unbalance 5, and on the other to the end free wall of the holder 4. In the first, 25 In the initial position, the ball 5 is held near the shaft 2 due to the elastic force of the spring 6, under the influence of increasing centrifugal force, the ball 5 has the ability to move along the guides of the holder 4 from the axis of rotation to the periphery, 30 increasing the value of the radius of the unbalance setting. The drive, equipped with nozzles 3, is made in the form of a hollow rod 7 providing compressed air supply, connected through an elastic element 8 with a rigid nozzle 9. A fixed 35 shaft Yu is installed in the shaft 2, in which at least three tangential holes II, matching in diameter with the holes of the internal channels of the hollow rod 7. 40

The elastic element 8 can be interchangeable with different stiffness characteristics, while the connection with the hollow rod 7 and the rigid nozzle 9 is carried out using split sleeves. 45

The device operates as follows.

Compressed air is supplied to the center of the fixed shaft 10, through the hole 11, air is supplied to the internal channel of the hollow rod 7 and is ejected through the nozzle 3, while under the action of the reaction force of the fluid stream, the shaft 2 unwinds. The rotation around the axis of rotation is carried out due to the stored energy pulse , while the holes 11 of the switchgear are closed, the air flow stops. When the shaft 2 is rotated, the hole of the internal channel of the hollow thrust 7 of the nozzle 3, which is opposite the first working nozzle, coincides, air is again ejected through the nozzle 3, untwisting the shaft 2. With an increase in the speed of rotation of the shaft 2, the centrifugal force acting on the unbalanced mass 5 increases, which soft start with zero static moment at the initial moment of time is pressed against the shaft 2 due to the elastic force of the spring 6, mounted on the holder, when the centrifugal force is larger than the pressing force springs, the unbalance 5 begins to move to the periphery, while the disturbing force increases, reaching its maximum value when the load 5 is placed on the periphery.

Claims (1)

Claim A pneumatic vibration exciter containing a base, a hollow shaft mounted on it, a pneumatic actuator made in the form of tangential nozzles mounted on a hollow shaft connected to a compressed air source, and unbalance, characterized in that, in order to increase efficiency and reduce energy costs, it is equipped with a distribution a device made in the form of a fixed shaft installed in the hollow shaft with three equally spaced circumferential tangential channels that coincide in diameter with tangential nozzles MI and installed 'on the tangential nozzles elastic elements made in the form of a tube with a bending angle greater than 90 °.