RU1798492C - Air-operated percussion machine - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to impact machines, and can be used in construction, mining, mechanical engineering and other fields of national economy. The purpose of the invention is to increase the energy of a single impact. This is achieved by the fact that an annular groove is made on the cylindrical surface of the lid, and the machine is equipped with a throttle needle that interacts with the mouth of the channel of the idle chamber of the striker. 1 s P. f-ly, 1 ill.

Description

The invention relates to mechanical engineering, in particular to pneumatic impact machines, and is an improvement of the known technical solution by the author. St. No. 1574810,

The purpose of the invention is to increase the energy of a single impact.

The drawing shows a longitudinal section of a percussion machine.

The machine contains a hollow body 1, in the central channel of which a movable cover 2 with a flange and a hammer 3 are placed, a glass fixed relative to the body 1, a handle 5 mounted movably on the glass, a working tool 6, a working chamber 7 and an idle chamber 8 of the striker, a throttle needle 9, placed movably in the bottom of the cup 4, the buffer 10 and the accumulation chamber 11. In the wall of the housing there are reedial holes 12,13, 14 and channel 15. On the cylindrical surface of the cover 2, an annular groove 16 is made.

The machine operates as follows.

When the handle 5 is pressed, the network air (energy carrier) enters the buffer chamber 10, which, passing through the channel 15, enters the idle chamber 8 and, exerting pressure on the end face of the hammer 3, moves it toward the cover 2. After overlapping with the side surface the hammer of the outlet openings 14 in the chambers 7 and 11 begins to compress the air cut off therein. Due to the significant volume of the chambers, the air pressure in them will increase slowly, as a result of which the firing pin, not meeting any significant resistance to its movement, will reach cover 2 and shift it towards the buffer chamber 10. At the same time, from the buffer chamber, the network air enters the annular groove 16 and then through the hole 12 into the accumulation chamber 11, increasing the air pressure in it to equal or close to the network one. At the same time, air flows through the opening 13 into the chamber 7 of the working stroke, while exerting pressure on the end face of the striker 3. Under the influence of this pressure, the striker will begin to move towards the working tool 6. Due to the fact that the air pressure in the chamber 7 as the striker moves away from cap 2 will decrease, cap will

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move towards the hammer under the action of the pressure difference at its ends. During the entire time of its movement from the buffer chamber 10, network air flows into the chambers 11 and 7, thereby preventing a sharp drop in pressure in them (due to an increase in the volume of the working chamber), which, in turn, will increase the speed of the hammer. the lid 2 at the end of the housing 1, the intake of network air into the chamber 11 is stopped. After the lateral surface of the striker overlaps the outlet openings 14 in the chamber 8, compression of the air cut off in it begins, overcoming the air pressure in the chamber 8, the striker strikes the end of the working tool 6. Due to the fact that the chamber 7 has been connected to the atmosphere through the opening 14, the pressure in it is equal to or close to atmospheric. Due to the difference in air pressure at the ends of the striker, as well as due to the energy of the rebound of the striker from the end of the working tool 6, the striker will begin to move towards the cover 2, making idling. The cycle repeats.

In the proposed machine design, the increase in impact energies is also achieved by decreasing the air back pressure on the end face of the striker 3 at the end of its working stroke by reducing the amount of network air supplied to the chamber 8 through the channel 15 during steady-state operation of the machine. This is achieved in that as the handle 5 moves along the housing 1 when the machine is started up, the throttle needle E reduces the passage section of the mouth of the channel 15,

When starting the machine from the position, the impactor lies on the end of the working tool in chamber B, and a maximum impulse must be generated, in addition to the energy sufficient to move the impactor 3 until it contacts the cover 2 and shift it towards the buffer chamber

10, it is also necessary to overcome the inertia of the rest of the drummer. In the second and subsequent cycles, the momentum created by compressed air can be reduced, because it

The impulse of rebound of the striker from the working tool will be added. Therefore, in the chamber 8, after the machine is put into operation (completion of the first cycle), the amount of supply air can be reduced by reducing the passage section of the mouth of the channel 15. This is carried out as follows. The beginning of the movement of the throttle needle 9 toward the channel 15 occurs with some delay along

compared with the beginning of the intake of network air into the chamber 10 due to the presence of free

the stroke of the handle until it contacts the end of the needle.

Therefore, when performing the first cycle in

chamber 8 through the fully open mouth

channel 15 will be supplied with the maximum possible amount of network air, which will ensure a guaranteed start-up of the machine in operation. As the handle 5 moves further, it will come into contact with

by the end of the needle, it will begin to move the latter towards the channel 15 and, having entered part of its length into the channel, will reduce its cross-section, reducing the back pressure in the chamber 8 at the end of the stroke allows

increase the impactor’s shock velocity and impact energy,

For mul a and zobret n i 1, Pneumatic impact machine according to ed. St. No. 1574810, due to the fact that, in order to increase the energies of a single impact, on a cylindrical cylinder. An annular groove,., 2. is made on the surface of the lid. The machine according to claim 1, is equipped with a throttle needle spring-loaded relative to the end of the glass and interacting alternately with the channel of the idling chamber.