SU882869A2 - Pneumatic vibration - Google Patents

Description

one

The invention relates to pneumatic vibrators, in particular used in the mining industry for driving vibrating vehicles used for the production and loading of ore from manholes, chutes and tanks.

According to the main author. St. No. 812670, there is a pneumatic vibrator containing cuff-valves, which seal around the periphery of the force cavities of the forward and reverse stroke of the striker, which are constantly in communication with the source of compressed gas through calibrated channels.

This vibrator works reliably in difficult mine conditions at high humidity and abrasiveness. The presence of two power cavities, namely the forward and reverse stroke of the striker, makes it possible to obtain a high frequency and energy of single shocks, which are particularly necessary for driving more powerful vibratory feeders 1.

However, despite the many positive qualities of a known vibrator has a high consumption of compressed gas.

The purpose of the invention is to reduce gas consumption and increase the efficiency.

The goal is achieved by the fact that the connection of the direct and reverse cavities with a source of compressed gas is carried out by means of a switchgear, which is located inside the drummer.

At the same time, distribute the “1 device” made in the form of an elastic cuff.

FIG. 1 shows a vibrator with a distribution device in the form of a valve, a slit; in fig. 2 - the same, with a dispenser in the form of an elastic cuff.

Claims (2)

The vibrator consists of a housing 1 attached to the vibrating plate 2, in which the hammer 3 is located. Between the drummer and the lower surface of the housing there is a cuff-valve 4, sealing the cavity 5 of the forward stroke and opening the exhaust from it, i.e. the atmosphere. Between the upper surface of the housing, in particular between the vibrating plate 2 and the drummer, there is a similar cuff-valve 6, sealing the return cavity 7 around the periphery and also carrying out the exhaust from it. The cuff valve 4 or 6 can be attached respectively to the drummer or to the body, but so that between the sealing part of the cuff and the corresponding adjacent surface at the end of the corresponding stroke of the impactor is formed at least in one place an exhaust gap. The switchgear is made at least with one working body, for example, a valve or a spool placed inside the drummer. It consists of a two-way valve 8, which is alternately adjacent to supporting sealing zones 9 and 10, and cavities 11 and 12 enclosed between them are permanently connected to power cavities 5 and 7. A cavity 13 located on the periphery of the valve 8, channel 14 and the sleeve 15 is continuously communicated with a source of compressed gas. When the valve 8 is made of elastic material, for example rubber or rubberized fabric, the distribution device can be made (Fig. 2), where the elastic valve is fixed between the composite drummer, and its free part is periodically hermetically pressed against the edges of the inlet ducts 16 and 17. In this case (Fig. 2), a central supply of energy carrier to the internal cavity of the striker is made through the guide rod 18, simultaneously holding the striker 3 from lateral displacements during its reciprocating motion. The vibrator works as follows. The energy carrier along sleeve 15 and channel 14 enters cavity 13. At this time, valve 8 is in the lower position and energy carrier begins to flow into cavity 7 of the return stroke, but since during start-up the hammer 3 is in the lower position and the force cavity 5 is connected to the atmosphere , the pressure in the valve valve 12 does not increase. Through the irregularities of the valve 8 abutment to the bottom of 9 or through a special starting hole (not shown in the drawing), the compressed gas enters the currently tightly closed cavity 5 of the forward stroke. Under the pressure difference in the cavities 11 and 12, the valve 8 flips upward and opens the inlet to the cavity 5. Under the action of pressure in the cavity 5, the striker 3 moves upward with increasing speed up to striking the vibrating plate 2. By this time the cuff-valve 4 is sealing Part of it detaches from the bottom surface of the housing 1 and exhaust from the cavity 5 to the atmosphere. By the same moment of time, lifting together with the drummer, the cuff-valve 6 with its sealing surface is pressed against the vibrating plate 2 and the backward cavity 7 is sealed. In connection with this, the pressure increases in the cavity 12. and in the cavity I1 drops to zero, under the action of the pressure difference, the valve 8 flips down and opens the inlet to the power cavity 7 of the return stroke. After striking the vibrating plate 2 under the action of weight, rebound and pressure in the cavity 7, the drummer begins to move downward with increasing speed before striking the hull, which is also transmitted through the fastening elements to the vibrating plate 2, to assist. its oscillatory motion. Even before striking the body 1, the cuff-valve 4 with its sealing part is attached to the lower surface of the body 1, the cavity 5 is sealed, and the cuff-valve 6 is disconnected from the vibrating plate with its sealing part. and through the resulting gap from the cavity 7 exhaust occurs. Due to the resulting pressure difference in cavities II and 12, valve 8 flips upward and opens the inlet to cavity 5, then the cycle repeats. Thus, the double-acting valve 8 operates from a periodically arising pressure difference in the power cavities 5 and 7, and consequently, in the cavities 11 and 12. When the distribution device is in the form of an elastic cuff that acts as a valve 8 (Fig. 2 ), the vibrator operates in a similar way, only in this case, the elastic cuff 8 is pressed against the respective edges of the discharge channels 16 and 17 by one side. The overlap of the inlet channels into the power cavities at the moments of exhaust from them allows almost completely eliminating the release of the unworked compressed gas into the atmosphere. The implementation of the inlet of compressed gas into the power cavities of the forward and reverse stroke of the striker through the switchgear helps to reduce the harmful backpressure in the power cavities that inhibit the striker before striking. It also contributes to an increase in the energy of single impacts without additional consumption of energy carrier, and, consequently, an increase in the efficiency of the vibrator. Claims I. Pneumatic vibrator according to the author. St. No. 812670, characterized in that, in order to reduce gas consumption and increase efficiency, the connection of the forward and reverse cavities with a source of compressed gas is implemented by means of a switchgear. which is located inside the drummer. 2. Vibrator according to claim 1, characterized in that the distribution device is made in the form of an elastic cuff. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 812670, cl. B 65 G 27/22, 1973. 8 W 12 / J / 4 / / / Riga.1 (rig 2