SU619733A1 - Method of damping vibrations - Google Patents

Description

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The invention relates to mechanical engineering and can be used in psvmatich percussion machines for various purposes.

There is a known method of damping vibrations, which implies that 1c is that the alternating motion force is balanced by the additionally applied alternating force 1.

However, this method is effective only under the conditions of resonance.

The closest to the invention on technical sush.nost And the achieved result is a method of damping vibrations, which consists in that the balancing element is affected by the driving force formed by the positive and negative half-waves that appear during the oscillation period.

The purpose of the invention is to increase the efficiency of vibration damping.

This is achieved by the fact that according to the proposed method, one of the half-waves is shifted by half a period and the balancing element is simultaneously affected by positive and negative half-waves.

The drawing shows a device for carrying out the proposed method.

The device includes a housing 1, in which the piston-hammer 2 and the movable mass 3 are formed, forming the rear 4 and front 5 working chambers, as well as an elastic element 6 placed between the mobile mass 3 and the housing 1. Compressed air from the network is supplied by valve 7 into the rear chamber 4. The pressure in it increases, creating a positive half-wave of driving force. Under its action, the piston-hammer 2 moves forward, and the moving mass 3 moves backward, compressing the elastic element 6 and increasing the pressure in the compression chamber 8. At the end of the forward stroke, the piston 2 opens the exhaust port 9 and strikes the drill shank. The pressure in the rear chamber 4 drops, and in the front

 chamber 5, starting from the moment the exhaust window 9 is closed, increases. Under the action of the resulting pressure differential, the valve 7 is thrown and directs the compressed air through the channel 10 to the front working air.

20 chamber 5. The pressure in it increases, creating a negative half-wave of the driving force, which moves the piston-impactor 2 backward, and at the same time seeks to move the body 1 forward. At the time of the ude, the mobile mass 3 occupies the extreme rear position. Elastic element 6 maximum

deformed, a force created by this force is maximum and tends to throttle the moving mass 3 Ezpered, and the body I backwards, i.e. in the direction of the action of the half-wave of the driving force. ha is the force and the negative half-wave of the driving force is oppositely directed and balance each other.

At the end of the return stroke, the nornup-hdarnik 2 {) turns the exhaust window 9, Aaii / iCiiiie in the front working chamber 5 falls, and the effect of the negative half-wave of the moving force stops. At this point, the moving mass 3 is in the extreme front position. The action of the elastic on the body 1 is also terminated.

Thus, the action of the moving half-wave by moving the force1) 1 of the air pressure in the rear chamber 4 with the help of the moving mass g 3 and the elastic element 6 is converted into an action of elastic force, which is similar in terms of pressure, but with a tenth, eno time. Elastic force acts simultaneously with negative half-wave driving force, but directed oppositely to the latter. As a result, an alternation of moments is achieved when the pressure forces of the air do not act directly on the body, with the adjustments, when these forces are oppositely directed and balanced.

At the same time, the parameters of the transforming device are B such that the frequency of its natural oscillations is not equal to the frequency of the transverse force, i.e. the operating mode does not require compliance with the resopaps conditions.

Claims (2)

1. The patent of Japopia No. 305892, cl. E 21st, 1953. 2.Ki zev A.S., Tartakovsky f5. D. On the application of the electro-mechanical feedback method for damping bending vibration of rods - “Acoustic Journal, 1965, .№ 11, issue. 2