SU386132A1 - STAND FOR TESTING AIR DISTRIBUTION DEVICES FOR PNEUMATIC DUMPERS - Google Patents

Description

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The invention relates to the field of percussion pneumatic machines and can be applied when testing air distribution devices for reliability.

Known pneumatic impact mechanisms, including a cylinder and a piston, in which the air distribution is carried out by a spool, equipped with longitudinal and radial channels and having independent rotation.

When using the specified spool for supplying air to the valve box of the stand, the valve loading mode inherent in the hammer hammer cannot be ensured, and in the case of use of the air hammer mechanism as air distribution, the overall reliability of the hammer mechanism is reduced.

The purpose of the invention is to increase the reliability and reproduction of the load on the valve.

To do this, on the side surface of the spool having independent rotation and installed in the cylinder, a variable section channel is made, which communicates the subvalvular cavity with the atmosphere.

FIG. 1 shows a stand in longitudinal section; in fig. 2 - in cross section.

The stand consists of a cylinder /, inside of which a valve box 2 is installed with the test valve 3 and a spool 4. To the lower part of the cylinder irireplep adapter 5, in

which; on the subpipes 6 and 7, the shaft S is installed, transmitting the rotation to the spool 4 from the digester 9. The axial load acting on the spool from the side of the cavity W is perceived by the sub-pin. On the surface of the spool 4, the level of the exhaust window // is made of a channel of variable section 12, connected by channel 13 to cavity 10. The last calibrated orifice 14 is connected to cavity 15, which is located by means of line pressure.

The operation of the stand is illustrated by the example of elastic valve testing.

When the position of the spool 4, indicated in the drawing, the cavity 10 is isolated from the atmosphere. When the stand is connected to the air through the calibrated orifice 14, the cavity 10 is filled. The valve 3 is open at this moment and is in the free state.

When the electric motor 9 is turned on, the gold 4 begins to rotate. When channel 12 is aligned with the exhaust window Jil from cavity 10, the head is made to take in compressed air, which is vented to the atmosphere. In the cavity 10, the pressure drops, which causes deformation of the valve 5, and a partial overlap of the channels 16. As the spool turns, the area of the channel 12, which is aligned with the exhaust window, increases, which leads to further

the pressure drop in the cavity 10. When combined with the exhaust window / 1 / channel 13, the air intake from the cavity 70 increases dramatically, which causes a rapid drop in pressure in the cavity 10 and the valve 3 closes the channels 16.

The described part of the cycle, with an appropriate choice of sections of calalas 13, 12 and 14, can provide a pressure drop in cavity 10, similar to the pressure drop in the chamber of an air hammer when doing positive work with air.

When the zhivdra / channel 13 is blocked by the mirror, the amount of air inflow through the canal .14 becomes larger than the flow through the canal 12 and the pressure in the cavity 10 gradually rises. When the corresponding pressure is reached, the valve 3 starts to expand, opening the channels 16 ajar. Further, the channel 12 closes and the pressure in the cavity 10 rises to the main.

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The valve H opens fully and the cycle repeats.

The second part of the cycle, with an appropriate choice of sections of the spool-distribution channels, can provide a load on the valve similar to the load in the valve when performing negative work with air.

Subject invention

Stand for testing air distributors of PN hammers, including cylinder, valve box and spool with independent rotation, characterized in that, to increase the reliability and accuracy of the load on the valve, on the side surface of the spool with independent rotation, installed in the cylinder, the channel of variable section reporting the subvalvular cavity with the atmosphere.

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