RU2296666C2 - Impact-action pneumatic machine - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: proposed impact-action pneumatic machine has hollow housing with air feed rod, piston with rod with spaces in piston and rod closed by piston cover, and spool, all arranged in housing. Spool is made in from of bushing installed for sliding with axial calibrated clearance in piston space on air feed rod of housing. Ring pass channel communicating with spaces of piston and rod is made between inner surface of bushing and outer of air feed rod.

EFFECT: improved reliability and serviceability of machine.

1 dwg

Description

The invention relates to pneumatic impact machines and can be used in mining, construction, foundry, engineering and other industries.

Pneumatic impact machine, comprising a hollow body with an air supply rod, a piston located in the body with a piston rod with cavities in the piston and the stem closed by a piston cover, a spool characterized in that the spool is made in the form of a sleeve slidably mounted with an axial calibrated clearance in the piston cavity on the air supply rod of the housing, and between the inner surface of the sleeve and the outer surface of the air supply rod is made an annular passage channel in communication with the cavities of the piston and the rod.

The technical result is a simplification of the design by reducing the number of parts in the piston cavity, increasing the manufacturability of manufacturing and assembly of machine parts, increasing the reliability, performance of the machine.

Also known is a pneumatic impact machine according to as 1891872, class B25D 17/00, 1986, comprising a housing with a cavity and a shock piston placed therein, having a cavity for constant communication with a source of compressed air, and a valve air distribution device, a valve of the air distribution device made in the form of a sleeve mounted for axial movement and forming axial and radial calibrated gaps with the shock step piston, the last of which is connected with the cavity of the step shock piston.

The disadvantage of this pneumatic percussion machine is the design complexity, unreliability in operation, since the piston on the rod is installed with radial and axial clearances, distortions are possible and, due to this, interruptions, stops when the piston rod is in the lower extreme position during operation cars at an angle to the object.

Closest to the invention in technical essence to the technical result achieved is a pneumatic impact machine known from RU 2002603 C1, MPK7 B25D 17/00, taken as a prototype, containing a hollow body with an air supply rod, a piston with a rod with cavities in piston and rod, closed by the piston cover, a spool in which the piston is equipped with a stepped sleeve mounted in the piston cavity and sliding on the air supply rod of the housing, which is made with a large and two small steps, forming passage chambers in the piston cavity, coaxial holes are made on the larger step of the sleeve and a spool is placed, and a cavity communicated with the rod cavity is made in its lower part. In the upper part of the stepped sleeve, a cavity is made in which a floating sleeve with radial and axial clearances is placed and slidably mounted on the air supply rod of the housing.

The disadvantage of this pneumatic impact machine is the design complexity, low manufacturing quality due to the large number of parts in the piston cavity, reduced reliability and performance of the machine.

The technical result of the invention is to simplify the design, increase the manufacturability of the manufacture and assembly of machine parts, increase the reliability and availability of the machine.

The technical result is achieved by the fact that a pneumatic impact machine comprising a hollow body with an air supply rod, a piston located in the body with a piston rod with cavities in the piston and the rod closed by the piston cover, differs in that the spool is made in the form of a sleeve slidably mounted with an axial calibrated gap in the piston cavity to the air supply rod of the housing, and an annular passage channel is made between the inner surface of the sleeve and the outer surface of the air supply rod, with communicated with piston and stem cavities.

The invention is illustrated in the drawing, which schematically shows a pneumatic impact machine, a longitudinal section.

The pneumatic impact machine includes a housing 1 with a cavity 2, which is connected to the atmosphere by exhaust holes 3, with an air supply rod 4 fixed to the housing 1 in its upper part, located in the housing 1 with the possibility of axial movement of the piston 5 with the rod 6, slidingly sealed in the lower parts of the housing 1. In the piston 5 there are coaxial holes 7, a cavity 8, which is closed by a cover 9 in the form of a sleeve with coaxial holes 10, slidably mounted on the air supply rod 4, and a cavity 11 is made in the stem 6, constant of communication with the source of compressed air through the air supply rod 4.

The piston 5 is equipped with a spool 12, made in the form of a sleeve, slidably mounted with an axial calibrated gap 13 in the cavity 8 of the piston 5 and forming an annular passage channel 14, which communicates the cavity 8 of the piston 5 with the cavity 11 of the rod 6, forming its inner surface and the outer surface of the air supply rod 4.

Pneumatic impact machine operates as follows.

When the machine is turned on, compressed air enters the cavity 6 of the rod 6 through the air supply rod 4, from which it enters the cavity 8 of the piston 5 through the annular passage channel 14, the spool 12 is in the lower extreme position, then through the axial calibrated gap 13 through the coaxial holes 10 in the cover 9 in the supra-piston part of the cavity 2 of the housing 1. Under the action of pressure from above, the piston 5 with the rod 6 begins to move down.

After the opening of the hole 3 with the piston 5 in the under-piston part of the cavity 2 of the housing 1, the compression of the air cut off from it begins and its pressure increases. After the piston 5 passes through the hole 3 from the over-piston part of the cavity 2, the exhaust of exhaust air starts and the pressure in it drops to atmospheric.

Under the action of increased pressure from below through coaxial holes 7 on the piston 5, the spool 12 moves to its upper extreme position, while the under-piston part of the cavity 2 of the housing 1 is isolated from the source of compressed air. According to the formed calibrated gap 13 in the lower part of the cavity 8, coaxial holes 7 on the piston 5, compressed air begins to flow into the under-piston part of the cavity 2 of the housing 1.

Around the same time, the piston 5 with the rod 6 makes a blow and begins to move upward under pressure from below.

After the holes 3 are blocked by the piston 5 in the nadporshne part of the cavity 2 of the housing 1, the compression of the air cut off in it begins, and after the holes 3 are opened from the subpiston part of the cavity 2, exhaust occurs. Under the action of increased pressure from above, the spool 12 moves to its lower position and allows compressed air to enter the over-piston part of the cavity 2. The piston 5 with the rod 6 is braked and starts to move down.

The cycle repeats.

The design of the pneumatic impact machine is simplified, the manufacturability of the manufacture and assembly of machine parts is increased, and the reliability and performance of the machine are increased. Technical characteristics of the machine are not violated.

Claims (1)

A pneumatic impact machine comprising a hollow body with an air supply rod, a piston located in the body with a piston rod with cavities in the piston and the stem closed by the piston cover, a spool, characterized in that the spool is made in the form of a sleeve mounted with an axial calibrated gap with the possibility of sliding into the piston cavity on the air supply rod of the housing, and between the inner surface of the sleeve and the outer surface of the air supply rod is made an annular passage channel in communication with the pore cavities AEs and stem.