SU1161349A1 - Pneumatic machine - Google Patents

Abstract

PNEUMATIC MACHINE, comprising a housing, in the cavity of which a pneumatic cylinder is installed. With a tool holder and diametrically disposed air supply channels connected through a distribution mechanism to an air inlet outlet, in order to expand the technological capabilities by adjusting the frequency of backward-forward tool movements, the distribution mechanism is made in the form of an impeller with an end cam and relief valves, located in the air supply channels and designed to interact with the impeller cam, while in the cavity between the impeller and the bypass valves an adjustable choke is inserted into the device.

Description

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The invention relates to metalworking, in particular to a mechanized mechanic tool, and can be used for plumbing.

The purpose of the invention is the expansion of technological capabilities by adjusting the frequency of the reciprocating movement of the tool.

FIG. 1 shows a machine, a longitudinal section; in fig. 2 is a section A-A in FIG. I; in fig. 3 - diagram of the air supply to the pneumatic cylinder; in fig. 4 — node I in FIG. one. .

The pneumatic machine comprises a housing 1 with a cavity 2 and exhaust outlets 3, in which adjustable throttles are installed in the form of overlapping ring-shaped valves 4 and which are connected via channel 5 to the air inlet 6.

In the cavity. 2, an impeller 7 is installed with an end cam 8 interacting with relief valves made in the form of spring-loaded balls 9 installed in diametrically arranged air supply channels 10 and 11 with openings 12 and 13 and serving to connect the cavity 2 of the turbine 7 with cavities 14 and 15 of the pneumatic cylinder 16. The pneumatic cylinder 16 comprises a piston rod 17, which is a tool holder and a piston 18 mounted movably relative to it 18. The threaded connection of the pistons allows adjustment of the distance L between them. The piston 18 stops with the aid of a spring-loaded clamp 19. The opening 20 serves to exit the exhaust air.

To prevent rotation during operation of the piston 18 and the rod 17, a locking element — a key (not specified) is installed in the typewriter. Moreover, the locking element is used only for the shaft 18 and ensures its constant position relative to the axis. The rod 17 is not fixed against rotation. This is due to the fact that the tool 17 is directly attached to the rod 17 of a generally flat shape (files, bars, lap), and this excludes the possibility of the rod 17 turning about the axis during operation.

The impeller 7 is installed on the supports 21. In addition, in the housing 1 installed tube 22 with an adjustable throttle 23.

Pneumatic machine works as follows.

Compressed air through the pipe 6 and the channel 5 is directed to the blades of the impeller 7, driving it into rotation and out into the cavity 2. Part of the volume of air enters the atmosphere through the hole 3, the cross-sectional area of which is regulated by the annular valve 4. With increasing cross-sectional area holes 3, the number of rotor turns and, accordingly, the number of double strokes of the reciprocating movement of the tool holder increases, and the pressure force of the compressed air on the tool decreases, while decreasing the area of pop river sectional openings 3 umenschaets impeller speed and the force increases. Such an interconnection between the number of double moves of the tool holder and the force is the most rational.

The remaining part of the air passes through the air supply channels 10 and 11, which are opened by means of spring-loaded balls 9 by cam 8 of the turbine 7. Through the air supply holes 12 and 13, the compressed air successively enters the over piston 14 and pneumatic cylindrical 15 cavity of the pneumatic cylinder. 17 and the piston 18 in one direction or another, depending on which of the cavities air is fed. The air from the opposite cavity first comes out through the air inlet 20, and

after it overlaps through an adjustable throttle 23. The operation of such a pneumatic cylinder with throttling ensures a constant speed of movement of the piston 17 and the piston 18 and the smooth operation of the mechanism without shocks and jolts. Impeller

7 pusher 8 opens the ball 9 located below, and compressed air, through the air supply opening 12 into the cavity 14, moves the piston-piston 17 to the left until the piston-rod opens

hole 20. When the impeller is rotated 180 °, the cam 8, acting on the ball located on the top, delivers compressed air through the hole 13 into the cavity 15 and moves the piston rod to the right until the latter opens the hole 20. Since

the piston rod 17 is connected to the piston 18 by means of a thread, and the piston 18 is locked by a spring-loaded clamp 19, then by rotating the rod-piston 17, the distance L can be adjusted. Due to this, it is possible to adjust the stroke length of the piston rod.

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Claims (1)

(54 (PNEUMATIC MACHINE, containing a housing in which a pneumatic cylinder is installed with a stock tool holder and diametrically arranged air supply ducts, outlet openings are connected through a distribution mechanism with an air supply duct, characterized in that, in order to expand technological capabilities by controlling the frequency of return - translational tool movements, the distribution mechanism is made in the form of a turbine with an end cam and bypass valves, located x in the channels for supplying air and designed to interact with the cam of the turbine, while in the cavity between the turbine and the bypass valves an adjustable throttle is inserted into the device.