SU722819A1 - Pneumatic vibrator - Google Patents

Description

(54) PNEUMATIC VIBRATOR

Claims (2)

The invention relates to the mining industry, in particular, to pneumatic vibrators for driving vibrating conveyors and feeders used for the production and loading of ore from blocks, ore passes and tanks. A pneumatic vibrator is known, which contains a base, a vibrating pillar, a cuff-valve located between them in a closed loop with the formation of a force cavity, which is connected to the source of energy carrier through a calibrated orifice. The cuff valve is provided with an elastic sealing part, which seals the force cavity and periodically communicates it with the atmosphere by detaching the sealing surface of the sealing element, in particular, from the surface of the vibrating platform or the base lj. A disadvantage of the known pneumatic vibrator is that with a high pressure of compressed gas, the edges of the sealing part of the cuff undergo great stress and the cuff is prematurely destroyed. A pneumatic vibrator with a cuff of o-valve power cavities with a perturbed vibration disturbance of a vibrating plate is known, in which the working body is a drummer located on the cuff valve with the possibility of reciprocating. Movement and impact on vibroplatform. To increase the oscillation frequency on top of the impactor, a cuff-valve is installed that forms the power cavity of the return stroke 2. A disadvantage of the known vibrator is that the valve cuff prematurely fails due to the high pressure of the compressed air that occurs at the edge parts. The purpose of the invention is to increase the service life of the cuff valve. This goal is achieved by the fact that in the sealing part of the cuff of the valve, vaulted windows are made, for example, in the form of holes, the edges of the exhaust windows of the valve cuff are reinforced with a more durable and wear-resistant material, and the cuff valve on the side of the exhaust windows is attached to the vibrating plate. In FIG. 1 shows a pneumatic vibrator together with a vibrating feeder in FIG. 2 - cuff valve. The pneumatic vibrator has a base I, a vibrating plate 2, a cuff cuff 3, forming between them an airtight force cavity 4, which through a sleeve 5 communicates with a source of compressed gas. In the sealing part of the valve cuff, exhaust ports 6 are made, for example, in the form of openings that can be reinforced with stronger and more durable material 7, for example, cord fabric, polymer, metal bushings. Pneumatic vibrator works as follows. Compressed gas through the sleeve 5 and through a calibrated orifice enters the force cavity 4 and acts on the entire area of the vibrating plate 2, limited by the cuff-valve 3, and on the sealing part of the cuff-valve, at the location of the exhaust ports 6, pressing it to the surface of the vibrating plate 2. The vibrating plate under the action of compressed gas begins to move upwards. During this movement, the sealing part of the cuff-valve 3 will ensure the tightness of cavity 4 only until the lower edge of the exhaust windows moves away from the surface of the platform 2, after which the rear cavity 4 is depressurized and the exhausted compressed gas passes through windows 6 to release to the atmosphere but the outboard platform 2 will move upwards for some time by inertia. Then, under the action of its own elasticity and weight, together with the rock mass, the vibrating plate will begin to fall down, the exhaust windows 6 will overlap, the exhaust from the force cavity 4 will stop and compress and charge it for some time with compressed gas. After the rib-lap 2 has gone down and the pressure of the compressed gas in the cavity 4 reaches the value required to complete the next power pulse, selecting the load with the load lying on it will start its upward movement again, and it will repeat. With this design, the lower chrome of the exhaust ports 6 of the sealing part of the cuff-valve 3 undergoes tensile tensile forces, since the cuff-valve material located between the exhaust ports, which absorbs the main forces, is working, and since it is more durable than the edges of the exhaust windows, tearing the cuff does not occur. The strength of the valve cuff increases when it is attached from the side of the exhaust ports to the surface of the sealing element, in this case to the surface of the vibrating plate. In this case, the deformation of the material of the cuff valve between the exhaust ports will be minimal. The ribs will not be swirled out even with a high pressure of compressed gas. The reinforcement of the edges of exhaust windows with a more durable and wear-resistant material also significantly strengthens the cuff-valve. Together, these measures can significantly increase the service life of the cuff-valve (2 - 3 times) and make its sealing part of a more elastic material with a lower stiffness of its elastic stroke, which also increases its service life. Such a design of the cuff-valve with exhaust ports on its sealing part can also be successfully used in pneumatic percussion vibrators having cuff-valve stitched cavities of forward, or forward and reverse stroke of the striker. Claim 1, Pneumatic vibrator, including vibroplatform, cuff-valve, sealing the whole cavity, characterized in that, in order to increase the service life of the cuff-valve, exhaust windows are made in the sealing part of the cuff-valve, for example, in the form of holes, 2 , Vibrator under item I, characterized in that the edges of the exhaust windows of the cuff-valve are reinforced with more durable and wear-resistant material, 3, Vibrator according to claims. 1 and 2, characterized in that the cuff-valve on the side of the exhaust ports is attached to the vibrating plate.