SU1062387A1 - Percussive pneumatic machine - Google Patents

Abstract

1. PNEUMATIC MACHINE OF SHOCK ACTION, including an axially movable hammer placed in the case, periodically interacting with the working tool and hermetically connected with an elastic-flexible tubular sheath in contact with the inside of the case and forming a gas-filled chamber, so that, in order to reduce the air flow and the weight of the machine, one end of the shell is attached to the rear side of the firing pin, and the casing is provided with a mandrel fixed in its tail piece, hermetically connected along hydrochloric Storo hydrochloric another end of the sheath. g. 2. The machine under item 1, I distinguish. This means that the mandrel has water for the supply of air into the gas field with a closed chamber.

Description

The invention relates to a pneumatic percussion machine, which can be used as a jackhammer, riveting and chipping hammers, concrete breakers, etc. of hand tools. A percussion machine is known in a cylindrical housing, by pressing a compressed air axially the impactor, which interacts with the working tool, moves. The compressed air is supplied to the working chambers of the hull by means of a hammer, which for this purpose has radial channels positioned against the hulls of the hull. This machine works with partial expansion of air, for which the volume of the front chamber is increased compared to the rear, which sharply reduces the back pressure on the drummer during a working stroke, and during the return stroke the drummer gets a large supply of kinetic energy. Thanks to the design of the machine, a relatively small air flow is achieved {, However, the drummer of such a machine has a considerable length, since the distribution of the airborne and skit is made on the drummer itself. The form of the drummer is complicated and metal-consuming, as a result, the weight of the machine increases and cannot be used as a manual tool. Closest to the invention is a pneumatic percussion machine, including a axially movable drum placed in the housing, periodically interacting with the working tool and hermetically connected with an elastic-flexible tubular sheath in contact with the inside of the housing and forming the gas-filling chamber. Known machine has a sufficiently high impact power with simultaneous low consumption of compressed air and reducing its weight. This became possible as a result of equipping the tail and head parts of the impact with elastic-flexible hose caps, hermetically connected to the body, and filling the chamber between the shells with compressed gas under pressure less than the pressure of compressed air in the network 2, the purpose of the invention air stroke and weight reduction of the machine. The goal is achieved by the fact that in a pneumatic percussion machine, an axially movable drummer placed in the housing, periodically interacting with the working tool Iintro and hermetically connected One end of the shell is attached to the back side of the striker, and the case is provided with a mandrel fixed in its tail part, hermetically connected by the outside with the other end of the shell. In addition, the mandrel has a channel for supplying air to the gas-filled chamber. FIG. 1 shows the scheme of the proposed machine, the position of the start of idling of the firing pin; FIG. 2 is the same, the start position of the striker stroke. The pneumatic percussion machine contains a cylindrical body 1 (Figs. 1 and 2), in which the impactor 2 is located with the possibility of axial movement, giving blows to the working tool 3 at the end of the working stroke. The impactor 2 has a stacked shape and is tightly connected flexible tubular sheath 4, in contact with the inner surface of the wall cor-. I. At the tail end of the housing 1, a protruding mandrel 5 is fixed, which is hermetically connected to the free end of the sheath 4 turned inward. 4. In case 1, drum 2 and the shank of working tool 3 have an idling chamber 9, which is supplied with compressed air through channel 10 in case 1. Exhaust air is blown out of this chamber 9 through exhaust port 11. The chamber 12 of the housing 1 is constantly communicated with the atmosphere through the window 13, the housing 1 is mounted with a handle 14 with a trigger device (not shown). The machine works as follows. At the initial moment, the striker 2 is in the position shown in FIG. 1, Since gas 8 is under constant pressure in chamber 8, a constant force acts on the impactor 2 towards the working tool. 3 When compressed air from the network enters channel 10 of idling chamber 9, it acts on the impactor. 2 and it begins to idle, at the end of which it will occupy the position shown in FIG. 2, At the same time, the drummer 2 opens the exhaust window 11 with its lower edge, and the emission from the chamber 9 takes place.

Claims (2)

1. PNEUMATIC SHOCK ACTION MACHINE, including an axially movable striker located in the housing, periodically interacting with the working tool and hermetically connected to an elastic-flexible sleeve shell in contact with the inner side of the housing and forming a gas-filled chamber, such as I mean that, in order to reduce air consumption and machine weight, one end of the shell is attached to the rear side of the drummer, and the body is equipped with a mandrel fixed in its tail part, hermetically connected to the outer a space with the other end of the sheath. . 2. Machine by π. 1, about l "" with the fact that the mandrel was used to supply air to the gas chamber. Oh 00 00 m