SU1051007A1 - Vibratory impact tool - Google Patents

Abstract

1. VIBROPHONE DEVICE, including a working platform, a housing with a base, a drummer, a power chamber, an elastic cuff-valve located in the housing, a device for supplying compressed gas to the force chamber and a cuff movement restrictor, characterized in that, in order to increase productivity by increase the energy of single blows, the elastic cuff-valve is made with a sealing side surface and mounted with the possibility of sliding its side surface relative to the walls of the force chamber with a gap of base. 2. A device according to claim 1, characterized in that the walls of the force chamber are coated with antifriction material. (L

Description

The invention relates to hoisting and transport machines and can be used as a drive for vibrating feeders and vibroconveyors, as well as for vibro-impact sealing of various mortars.

A pneumatic vibrator is known, which contains a base, a drummer and cuff valves, sealing the forward and reverse passages, communicating with the source of compressed gas and carrying out the exhaust from them, the forward passage cavity acting as a spring I.

The disadvantage of this vibrator is the relatively small energy of single shocks.

Closest to the present invention is a vibro-impact device, including a working platform, a housing with cooling, a hammer, a force chamber, an elastic cuff-valve located in the housing, a device for supplying compressed gas to the power chamber 2.

A disadvantage of the known device is low productivity, which is associated with a relatively low energy of single blows due to the short overclocking path of the impactor.

The purpose of the invention is to increase productivity by increasing the energy of individual shocks.

It is achieved by the fact that in the vibro-impact device, including the working platform, the cornus with the base, the drummer, the force chamber, the elastic cuff valve exchanged in the housing, the device for supplying compressed gas to the s. Chamber and the movement limiter of the cuff, the elastic cuff The valve is made with a sealing side surface and is installed with the possibility of sliding its side surface relative to the walls of the force chamber with a separation from the base.

In addition, the walls of the force chamber are covered with antifriction material.

FIG. 1 shows a vibro-impact device, vertical section; on fi ;. 2 - part of the elastic cuff-valve; in fig. 3 - version of the design with the attachment of the corgus to the working section; O1iadke.i with to; 1; the inlet; in fig. 4 - the same, at the moment of exhaust of the exhausted compressed gas.

Vibro-shock device consists of working platform 1, body 2 with d) warp 3, movably installed in darik 4 and disengaged between drummer 4 and base 3 of elastic manzhey valve 5. Cuff-valve 5. figurative or other rational form. The LAanzhega-klanar is made with a sealing lateral surface D) and ugta11 (M5lena with possibility

sliding its side surface relative to the walls 7 of the force chamber, while it may come off the base of the chamber. In addition, the clan cuff has an uplifted valve edge 8, in contact with the hammer 4. The walls 7 of the force chamber can have a coating 9 of antifriction material, the chamber can be made in the form of a groove in the housing. At the outlet of the force chamber, a stop end protrusion 10 is installed, made, for example, in the form of a ring, the narrowed part 11 of which is a pickling element for the drummer 4. Sealing the seal chamber with a cuff-valve 5

5 12 channel 13 and the sleeve 14 is in communication with a source of compressed gas. In order to reduce the consumption of compressed gas, the inlet device can be made, for example, with a valve, for which under the base 3 a utapane box 15 is installed with

0 by a spring-loaded valve 16, equipped with a pusher 17, which can be contacted with a hammer 4, and the sub-valve space is communicated by channels 18 with the power chamber 12. The device body 2 can

5 to be installed under the working platform I by means of elastic suspensions 19, and a return spring 20 is placed between the hammer 4 and the working platform 1, which serves to accelerate the return stroke of the hammer. On the basis of the stops can be installed

0 21, equipped with a shock-absorbing coating, the purpose of which is to soften the shock load exerted by the impactor on the base 3 during its return strokes, as well as to protect the sealing lip 8 of the cuff-valve 5 from shock loads. The cuff-valve is provided with an orhranchiteli 22 of a bend of its sealing edge 8, which can be made in the form of an elastic element, for example, a spring (Fig. 2), and in this case

contribute to a more rapid lowering of the cuff-valve 5 along the walls 7 of the chamber during the return stroke of the striker 4. In the housing 2, holes 23 are provided for exhausting the exhausted compressed gas (Fig. 3 and 4).

The device works as follows.

The discharge of compressed gas through the sleeve 14 and the channel 13 into the power chamber 12 (Fig. 1) creates pressure in the latter, under the influence of which the striker 4 begins to move upwards. Simultaneously with it, supported by pressure from CTOpotibi of power chamber 12, moves up and pressed with its sealing lip (; with 8 to drummer 4 cuff-valve 5, sliding its outer sealing surface 6 along the walls 7 of force box 12. When reaching the cuff - by the valve 5 Tcjpnoaoro stop Bf.icTyna 10, the movement of the cuff of the valve 5 upwards stops, the striker 4, continuing to move upwards, is detached from the sealing edge 8 of the cuff-valve 5 and strikes the working padDke 1, through the gap formed between it and the sealing At its edge 8, the compressed exhaust gas is exhausted from the power chamber 12 to the atmosphere. The impactor 4 after the shock and impact on the working platform I, without being subjected to pressure of the compressed gas from the power chamber 12, moves downwards under the action of its mass - valve 5. At the end of the return stroke, the striker 4 comes into contact with the sealing edge 8 of the cuff of the valve 5, the force chamber 12 is sealed again, the pressure in it rises, and the cycle is repeated.

The presence of the limbs 22 of the bend of the sealing lip 8 does not allow the latter to follow the striker 4 - after the body part of the cuff-valve 5 approaches the face locking protrusion 10, which ensures the creation of a gap for exhaust from the power chamber 12 of the exhausted compressed gas, i.e. ensures uninterrupted operation of the device. The implementation of the limiting limb in the form of an elastic element, for example, a spring, contributes to a more rapid lowering of the cuff-valve 5, the sealing of the power chamber 12 occurs later. This weakens the opposition to lowering the hammer 4, as a result of which the hammer 4 completely reverses and creates the possibility of a larger acceleration path when making a working stroke y and rnnkom. As a result, the energy of a single blow and the power of the device increase.

When the valve inlet 1 inlet (Fig. 3 and 4), the device operates as follows.

The shock of nick 4 and the return spring 20 lowered under the influence of the mass of the pusher 17 causes the spring-loaded valve 16 to be in the open position (Fig. 3), whereby the compressed gas supplied through the sleeve 14 to the valve box 15 flows through the channels 18 to the power chamber 12 and creates pressure in it, under the influence of which the striker 4, together with the cuff-valve 5, begins to move upwards, making a working stroke. At some stage of this upward movement, the spring-loaded valve 16, due to the separation of the pusher 17 from the impactor, blocks access of the compressed gas to the power chamber 12, and the movement of the latter, as well as the cuff-valve 5, is accomplished due to expansion of the compressed gas, and this makes it possible to use it more fully energy and reduces the consumption of compressed gas. When making a reverse stroke, the impactor 4 enters into contact with the pusher 17, the spring-loaded valve 16 opens access of the compressed gas to the power chamber, and the cycle repeats. The presence of the return spring 20 accelerates the return stroke of the striker 4, the time taken to complete the full cycle is reduced, and this increases the speed of the device, increases its shock power and the performance of the working platform 1 brought into action.

Mount case 2 to the working platform I using ytipyrHx suspensions 19 creates the preconditions for reducing the shock load exerted on the housing 2 and the entire device when the drummer makes 4 strokes on the working platform 1.

The invention makes it possible to create blows of much greater power, which is explained by the presence of a multiply increased acceleration path of the striker, and to increase the productivity of the vibro-impact device.

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Claims (2)

1. VIBRATING DEVICE, including a working platform, housing with a base, an impactor, a power chamber, an elastic cuff-valve located in the housing, a device for supplying compressed gas to the power chamber and a cuff movement limiter, characterized in that, in order to increase productivity by increasing the energy of single strokes, the elastic cuff-valve is made with a sealing side surface and is installed with the possibility of sliding its side surface relative to the walls of the power chamber with a separation from the main Ania. 2. The device according to π. I, characterized in that the walls of the power chamber are coated with antifriction material. fig)