SU989305A1 - Pneumatic vibrator - Google Patents

Description

. (54) PNEUMATIC VIBRATOR

Claims (1)

The invention relates to devices that generate high-frequency mechanical vibrations (vibrations), used in particular to prevent the formation of solid deposits in heat exchangers. A pneumatic vibrator is known, which contains a holder with an inner ring groove, the ball is rolled in, a waveguide and a nozzle with tangential openings for gas supply {13. However, this device is not effective enough because of an insufficiently wide range of frequencies and amplitudes of the received oscillations. It is known that the efficiency of the effect of mechanical oscillations on physicochemical processes and the prevention of deposits increases with the complication of the nature of the oscillations. The need to obtain complex oscillatory movements is also due to the complexity of the processes occurring in modern industrial devices. For example, in the production of polyester fibers, the following processes occur simultaneously in the preparation of polyethylene terephthalate in the reactor: polycondensation reaction, mass transfer processes, heat transfer, formation of deposits on the inner surface of the reactor. The impact of one particular amplitude and. frequencies for all the above processes are not simultaneous. For example, an oscillation frequency of 10,000 Hz well prevents the formation of solid deposits, but has a bad effect on improving mass transfer. Hence the creation of a simple in construction and economical in operation vibrator, in which the amplitude and frequency of oscillations would vary continuously in magnitude within certain limits, is an urgent task. In this case, the vibrator, which creates a complex nature of oscillations, could simultaneously intensify the reaction, mass transfer, heat transfer and prevent the formation of solid deposits. The purpose of the invention is to increase the efficiency of the device by expanding the range of frequencies and amplitudes of oscillations. The goal is achieved by the fact that a pneumatic vibrator comprising a holder with an internal annular groove, a ball is rolled in, a waveguide and a nozzle with tangential gas supply holes, the vibrator is additionally equipped with a series-mounted and covering the main holder with a glass and a holder with an internal annular groove rolled by the ball and the additional holder is attached by the ends to the waveguide, and in the wall of the glass there are tangential holes for supplying gas to the cavity of the additional holder, the gas supply nozzle is attached to the bottom of the glass, the inner cup with the tangential holes for gas supply to the main shell, facing down to the waveguide, is fixed in the main casing, and the waveguide has an opening for gas outlet from the main cavity. In this device the supplied energy of the gas is almost entirely used to create oscillations, since the balls, in their circular motion, are constantly in the zone of action of the gas jets emerging from the tangential orifices. In the device the ball is known most of the time in the cycle of movement leaves the zone of action of the gas jet. FIG. 1, shows the proposed device, a longitudinal section; in fig. 2 shows section A-A in FIG. 1. The device contains a ferrule 2 fixed to the waveguide 1 with an inner annular groove rolled by the ball 3, a pipe 4 for supplying compressed gas and tangential holes 5 made in the wall of the cylinder 6. The cup 8 is attached to the waveguide 1 having a hole 7 and an additional holder 9 with a groove, rolled by the ball 10. The cylindrical wall of the glass 8 is made of the gentile holes 11. The pneumatic vibrator works as follows. Compressed gas with a pressure of 2–5 kgf / cm is fed into the device through pipe 4 into the cavity of glass 8, from where it goes through holes 5 and 11, and balls 3 and 10 drive along the annular grooves of the clips 2 and 9. the cavity of the cage 2 enters the atmosphere through the hole 7 in the waveguide, and from the cavity of the cage 9 through the apertures of the left wall (2 arrows). The rapid circular movement of the balls creates in each cage independent oscillatory movements of different parameters. The total oscillatory movement of these oscillations is complex with a wide range of amplitudes and oscillation frequencies, which more intensively intensifies the physicochemical processes and better prevents the formation of scale. The complex nature of the oscillations in the device is ensured by the economical use of the energy of the supplied compressed gas due to the structural design of the device in which the holes 11 are uniformly distributed in the cylindrical wall of the glass 8 to communicate the circular movement of the ball 10. The holes are located in the cavity of this holder in the plane of movement of the ball. The combination of the complex nature of oscillations with the economical use of energy in the device increases its efficiency during operation. The invention includes a pneumatic vibrator including a holder with an internal annular groove, a ball rolling, a waveguide and a nozzle with tangential gas supply holes, characterized in that, in order to increase the efficiency of operation by expanding the frequency range and amplitude of oscillation, and covering the main holder with a glass and a holder with an inner annular groove, rolled around the ball, with the glass and the additional holder attached by ends to the waveguide and tangential holes are made in the wall of the glass for supplying gas to the cavity of the additional holder, the gas supply nozzle is attached to the bottom of the glass, in the main holder the internal glass with tangential holes is fixed to supply gas to the cavity of the main holder facing the waveguide and the waveguide has an opening for the gas to exit the cavity of the base of the cage. Sources of information taken into account in the examination 1. USSR Author's Certificate for Application 2892797 / 24-12, cl. F 28 G 7/00, 1980. FagL Rth 9 Vus.2