RU2799163C1 - Pneumatic vibrator - Google Patents

Abstract

FIELD: vibrotechnology.

SUBSTANCE: invention is used in mining, in the construction industry for moulding concrete mixes, as a drive for vibratory feeders, etc. The pneumatic vibrator includes a housing made in the form of upper and lower plates fastened with posts, between which there is a striker, an adjusting nut, a supply valve with air supply holes, the seat of which is mounted in the striker, a membrane with a central hole covering the outer surface of the supply valve seat, a sealant, fixed on the upper plate of the body, the exhaust compressed air valve, fixed on the periphery of the striker and adapted for interacting with the surfaces of the sealer and the striker facing it, while the lower plate of the body, the feed valve and the membrane form a direct-stroke chamber, and the striker and the exhaust valve of the exhaust compressed air form a reverse chamber, moreover, an elastic limiter is installed on the striker, above the membrane, whereas the supply valve with air supply holes is installed in the adjusting nut for free axial movement between its shoulders and the stop rigidly connected to it. A guide axle is installed through the pneumatic vibrator perpendicular to the upper and lower plates of the housing, the end of which is rigidly fixed in the centre of the upper plate of the housing, whereas the striker is equipped with a guide bushing with air supply holes communicating with the axial channel of the feed valve seat.

EFFECT: expansion of process capabilities and increase in the efficiency of the pneumatic vibrator due to the creation of a rigid kinematic connection between the striker and the housing.

1 cl, 2 dwg

Description

The technical solution relates to vibration technology and can be used in mining, the construction industry as a drive for vibratory feeders for forming concrete mixtures, compacting materials, and in other industries in technological processes using vibration.

Known pneumatic vibration exciter according to the patent of the Russian Federation No. 118950 for a utility model, B65G27/22, publ. 08/10/2012 in Bull. No. 22, including a housing in which a striker, a feed valve with a seat, a forward stroke chamber formed by a striker, a feed valve and a housing, and a reverse stroke chamber formed by a striker, an exhaust valve for exhaust compressed air and a seal, it is equipped with at least , with one membrane with a central hole, covering the outer surface of the feed valve seat, which is mounted in the striker, and the striker with the feed valve seat is mounted for movement relative to the membrane. An elastic limiter is installed on the drummer under the specified membrane.

Common features of an analogue with the claimed technical solution are: the presence of a housing in which a striker is placed, a supply valve with a seat, the presence of a forward stroke chamber formed by a striker, a supply valve and a housing, and a reverse stroke chamber formed by a striker, an exhaust valve for exhaust compressed air and a seal , at least one membrane with a central hole, covering the outer surface of the supply valve seat mounted in the impactor, the elastic limiter installed on the impactor, and the impactor with the supply valve seat are mounted for movement relative to the membrane.

The disadvantages of a pneumatic vibration exciter are its limited scope, since it can only be used when it is installed vertically on process equipment, and low efficiency due to the lack of a rigid kinematic connection between the striker and the body. An inclined installation of a pneumatic vibration exciter leads to galloping of the striker (angular oscillation relative to the diametrical axis passing through the center of gravity of the striker), that is, to unstable operation of the exhaust compressed air valve caused by the one-sided fit of the striker to it, which leads to unstable operation of compressed air in the return chamber. stroke and, consequently, to the inefficient operation of the pneumatic vibration exciter.

The closest analogue in terms of technical essence and set of essential features is a pneumatic vibrator (first option) according to RF patent No. 2666831, F15B21/12, publ. 09/12/2018 in Bull. No. 26, including a body made in the form of upper and lower plates fastened with posts, between which there is a striker, an adjusting nut, a supply valve with air inlet holes, the seat of which is mounted in the striker, a membrane with a central hole covering the outer surface of the supply valve seat, a sealant , fixed on the top plate of the body, the exhaust compressed air valve, fixed in the center of the seal and on the periphery of the drummer with the possibility of interacting with the surfaces of the seal and the striker facing it, while the bottom plate of the body, the supply valve and the membrane form a forward stroke chamber, and the striker and an exhaust valve for exhaust compressed air - a reverse chamber, and on the drummer, above the membrane, an elastic limiter is installed. The adjusting nut is installed in the bottom plate;

The common features of the prototype with the claimed technical solution are: the presence of a body made in the form of upper and lower plates fastened with racks between which the drummer is placed, the presence of an adjusting nut, a power supply valve with air inlet holes, the seat of which is mounted in the drummer, a membrane with a central hole covering the outer surface of the feed valve seat, the sealer fixed on the top plate of the housing, the exhaust compressed air valve fixed on the periphery of the hammer with the possibility of interacting with the surfaces of the sealer and the striker facing it, while the bottom plate of the housing, the feed valve and the membrane form a forward-stroke chamber , and the drummer and the exhaust valve of the exhaust compressed air - a reverse chamber, and on the drummer, above the membrane, an elastic limiter is installed, while the supply valve with air supply holes is installed in the adjusting nut with the possibility of free axial movement between its shoulders and the stop rigidly connected to her.

The disadvantage of the design, as in the previous analogue, is the low efficiency of the pneumatic vibrator and the limited scope due to the lack of a rigid kinematic connection between the drummer and the body, which, when the device is inclined, causes galloping of the drummer. This leads to unstable operation of the compressed air exhaust valve caused by the one-sided fit of the impactor to it, which leads to unstable operation of the return chamber and, consequently, to inefficient operation of the pneumatic vibrator.

The problem is to expand the technological capabilities and increase the efficiency of the pneumatic vibrator by creating a rigid kinematic connection between the impactor and the body.

The solution to the problem is achieved by the fact that in a pneumatic vibrator, including a housing made in the form of upper and lower plates fastened with racks, between which there is a striker, an adjusting nut, a supply valve with air supply holes, the seat of which is mounted in the striker, a membrane with a central hole covering the outer surface of the feed valve seat, the sealer fixed on the upper plate of the housing, the exhaust compressed air valve fixed on the periphery of the striker with the possibility of interacting with the surfaces of the sealer and the striker facing it, while the bottom plate of the housing, the feed valve and the membrane form a forward stroke chamber , and the drummer and the exhaust valve of the exhaust compressed air - a reverse chamber, and on the drummer, above the membrane, an elastic limiter is installed, while the supply valve with air supply holes is installed in the adjusting nut with the possibility of free axial movement between its shoulders and the stop rigidly connected to on it, according to the technical solution, a guide axle is installed through it perpendicular to the upper and lower plates of the housing, the end of which is rigidly fixed in the center of the upper plate of the housing, while the striker is equipped with a guide sleeve with air inlet holes communicating with the axial channel of the feed valve seat.

The proposed technical solution due to the fact that a guide axle is installed in the pneumatic vibrator, and its striker is equipped with a guide sleeve, provides a rigid kinematic connection between the striker and the housing. This, with any spatial orientation of the pneumatic vibrator, will eliminate the galloping of the striker, as it will ensure its tight, without distortions, fit to the exhaust compressed air exhaust valve and its reliable pressing against the sealer, ensuring stable efficient operation of compressed air in the return chamber and, therefore, increase efficiency. operation of the pneumatic vibrator and expand its technological capabilities.

The essence of the technical solution is illustrated by an example of a specific design of a pneumatic vibrator and drawings of Fig. 1 and 2. In FIG. 1 shows a longitudinal section of a pneumatic vibrator in its initial position, when the striker is in the lowest position; in fig. 2 is the same as in Fig. 1 when the striker is in its highest position.

The pneumatic vibrator includes a housing made in the form of an upper plate 1 (Figs. 1 and 2) and a lower plate 2, fastened with a bolted connection (item not indicated) by posts 3, between which a drummer 4 is placed, an adjusting nut 5, in it with the possibility of free axial movement between its shoulders 6 and stop 7, rigidly connected to it, a supply valve 8 with air supply holes 9 is installed. the hole covers the outer surface of the saddle 10. Sealant 13 is fixed on the upper plate 1 of the body, the exhaust valve 14 of the exhaust compressed air (hereinafter - the exhaust valve 14) with exhaust holes 15 is fixed on the periphery of the drummer 4 with the possibility of interacting with the surfaces of the sealer 13 and the drummer facing it 4. On the drummer 4, above the membrane 12, an elastic limiter 16 is installed. A guide axle 17 is installed through the pneumatic vibrator perpendicular to the upper 1 and lower 2 plates of the housing, the end of which is rigidly fixed in the center of the upper plate 1 of the housing, while the drummer 4 is equipped with a guide sleeve 18 with air inlets 19 connected with the axial channel 11 of the seat 10.

In this case, the bottom plate 2 of the body, the supply valve 8 and the membrane 12 form the forward stroke chamber A , and the striker 4, the exhaust valve 14, the guide shaft 17 and the guide sleeve 18 form the reverse stroke chamber B. The adjusting nut 5, the supply valve 8 and the guide shaft 17 form a cavity B , which is connected to the compressed air source through the air supply fitting 20.

Pneumatic vibrator works as follows.

In the initial position, the striker 4 (Fig. 1) occupies the lowest position. According to the drawing, it is supported by an elastic limiter 16 through a ring (pos. not indicated) holding the membrane 12 on the bottom plate 2 of the body. The adjusting nut 5 is screwed into the bottom plate 2 until the valve 8 touches the seat 10. In this position, the forward stroke chamber A is cut off from the reverse stroke chamber B , which is connected to the atmosphere through the exhaust holes 15. When compressed air is supplied through the air supply fitting 20 in the cavity C pressure is created and the supply valve 8 is tightly pressed against the seat 10. Next, the compressed air through the air supply holes 9 enters the chamber A of the direct stroke (Fig. 1) and, acting on the membrane 12, accelerates the drummer 4 with acceleration in the upward direction according to the drawings, accumulating in it the kinetic energy of the forward stroke. This happens until the supply valve 8 touches the stop 7 with its surface. With further movement of the drummer 4 upwards, the supply valve 8 is separated from its seat 10 (Fig. 2), compressed air from the direct stroke chamber A through the axial channel 11 of the seat 10, the air inlet holes 19 of the guide sleeve 18 begin to flow into the reverse chamber B and then through the exhaust holes 15 in the exhaust valve 14 it is released into the atmosphere (Fig. 1). By this moment, striker 4, having received a supply of kinetic energy, continues to move upwards. At the end of the forward stroke of the drummer 4, the exhaust openings 15 are closed by the sealer 13 (Fig. 2) and the reverse stroke chamber B is sealed. The kinetic energy of the forward stroke of the striker 4 through the exhaust valve 14 and through the air cushion in the chamber B of the reverse stroke is realized in the form of a force impulse along the sealer 13 fixed on the upper plate 1 of the body, and accordingly, through the device on which the pneumatic vibrator is fixed, for example, on vibration feeder. Further, under the action of compressed air in the chamber B of the reverse stroke (Fig. 2), the effective surface area in which is greater than in the chamber A of the forward stroke, the striker 4 moves down with acceleration and accumulates the kinetic energy of the reverse stroke. The exhaust holes 15 and the reverse chamber B open, and through the air inlets 19 of the guide sleeve 18, the axial channel 11 of the seat 10, and the forward chamber A communicate with the atmosphere, however, the striker 4 continues to move down by inertia. The saddle 10, fixed in the striker 4, reaches the supply valve 8, pressed against the stop 7 by a jet of compressed air coming from the air supply fitting 20, and compressed air pressure in cavity B. Chamber A of the forward stroke is cut off from chamber B of the reverse stroke, and, consequently, from the atmosphere. Drummer 4 by inertia continues to move down together with the seat 10 and the power supply valve 8. The kinetic energy of the reverse stroke of the striker 4 is extinguished by an air cushion in the chamber A of the forward stroke, it stops in its original position (Fig. 1). Further, compressed air through the air supply holes 9 continues to flow into the chamber A of the forward stroke and, acting on the membrane 12, accelerates the drummer 4 in the upward direction, accumulating in it the kinetic energy of the forward stroke.

Further, the cycle of operation of the pneumatic vibrator is repeated.

Depending on the spatial orientation of the pneumatic vibrator, when it is installed on the process equipment, by screwing or unscrewing the adjusting nut 5, it is adjusted in order to obtain a reliable start and stable operation. The smooth final adjustment of the pneumatic vibrator to the optimal operating mode required for the corresponding technological equipment is carried out by changing the pressure and flow rate of the supplied compressed air.

The installed guide axle 17, passing through the pneumatic vibrator, the end of which is rigidly fixed in the center of the upper plate 1 of the body, and the striker 4, equipped with a guide sleeve 18, provide a rigid kinematic connection of the striker 4 with the body. This eliminates the galloping of the drummer 4, which allows you to install a pneumatic vibrator on any surface of the process equipment, arbitrarily oriented in space.

Claims (1)

Pneumatic vibrator, including a housing made in the form of upper and lower plates fastened with posts, between which there is a drummer, an adjusting nut, a feeding valve with air inlet holes, the seat of which is mounted in the drummer, a membrane with a central hole covering the outer surface of the feeding valve seat, a sealant , fixed on the upper plate of the body, the exhaust compressed air valve, fixed on the periphery of the striker with the possibility of interacting with the surfaces of the seal and the striker facing it, while the lower plate of the body, the feed valve and the membrane form a direct stroke chamber, and the striker and the exhaust valve of the exhaust compressed air - a reverse chamber, and on the drummer, above the membrane, an elastic limiter is installed, while the supply valve with air supply holes is installed in the adjusting nut with the possibility of free axial movement between its shoulders and the stop rigidly connected to it, characterized in that through a guide axle is installed perpendicular to the upper and lower plates of the housing, the end of which is rigidly fixed in the center of the upper plate of the housing, while the striker is equipped with a guide sleeve with air inlet holes communicating with the axial channel of the power supply valve seat.

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