SU1307037A1 - Pneumatic percussive mechanism for driving elongated rods into soil - Google Patents

Abstract

The invention relates to constructional engineering. The compressed-air percussion device contains a cylindrical hollow body (1) with an inlet opening (2) and an outlet opening (3). A stepped percussion tool (4) with an axial passage is accommodated inside the body (1). In order to ensure movement of the percussion tool (4) inside the body (1), a chamber for the working stroke (6) and a chamber for the idle stroke (7) are provided. A hose (8) and a cock (9) are provided for the supply of compressed air. A clamping device (10) is arranged in the front part of the body (1). Provided on the smaller step of the percussion tool (4) is a groove (14) via which the inlet opening (2) is conductively connected to the space of the larger step of the body (1), and an open annular space (15) is formed between the tube (5) and the axial passage of the percussion tool (4). The present invention can be used especially effectively for driving bar-shaped elements into the ground which have a cross-section which is significantly smaller in relation to the length. <IMAGE>

Description

Isoretation refers to construction equipment and can be used for driving long rods into the ground, for example, grounding electrodes, anchors, injectors, and so on.

A pneumatic percussion device is known for immersion in the soil of long bar-shaped elements, including a housing, a stepped impactor mounted inside it, enclosing the central sleeve and dividing the housing cavity into working and idling chambers 1.

The disadvantage of such a device is the presence of the rubbing surfaces of the striker with the tube, the coaxiality of which is difficult to ensure, which can lead to jamming of the kick, resulting in reduced reliability of the device.

The closest technical peni- tion to the present invention is a pneumatic impact mechanism for driving long rods into the ground, comprising a housing with holes and a central tube for expanding a driven rod, a stepped hammer with an axial channel exceeding the diameter of the tube, chamber working1 0 and idling 2.

A disadvantage of the known non-impact mechanism is the specific specific air flow rate. In the known pneumatic shock mechanism, this ratio is 0.25-0.35 and its increase to the required value is impossible without increasing the size and mass of the mechanism. This is due to the fact that the change in the ratio

volumes in this CONSTRUCTION may be PERSONAL

by increasing the volume of the working chamber | about the move. But since this chamber is formed by the walls of the casing and the drummer, it is possible to increase its volume to obtain the required fit only by connecting additional capacity to it, the presence of which will increase the dimensions and weight of the mechanism.

The aim of the invention is to reduce the specific air flow rate.

The goal is achieved by the fact that in the first-aid mechanism for driving the ground with long rods, comprising a housing with holes and a central tube for accommodating the hammer, the stem, the stepped impactor with the axial channel restoring the outer diameter of the pipe, the working chamber and idling, the idling chamber is formed by the hull walls and the drummer, and the working-speed chamber is formed by the steps of the housing, the drummer and the tube, with the volume of the working stroke chamber exceeding the volume of the idling chamber by 3-4 times.

The drawing shows a pneumatic impact mechanism at the forward position of the firing pin.

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The pneumatic impact mechanism consists of a housing 1, inside of which a shock 2 is located and a central tube 3. The housing 1 is a hypha 4 with an elastic ring 5 in the upper part, mounted on sleeve 4 by means of rings 6 shell 7 and sleeve 8, mounted on the lower part of the shell 7 and connected by a shock absorber 9 to the anvil 10. The elastic ring 5, sleeve 4, shell 7 and sleeve 8 are inserted between each other by means of flange 11, studs 12 and nuts 13. The tube 3 is installed with its lower part in the anvil I), and the upper in an elastic ring 5. In the anvil I) in the wedging elements 14 are directed, directed, and the sleeve 15 and the return spring 16 of the fixture. In the sleeve 4 of the housing 1, the inlet 7 and exhaust 18 holes were plugged out, and a shell 19, acting as an exhaust silencer, was mounted on the spikes 12.

The drummer 2 and the housing 1 form the idling chamber 20, and the drummer 2, the housing 1 and the tube 3 form the working stroke chamber 21. An annular channel 22 is formed between the hammer 2 and the tube 3. (The rolled air into the working chambers is connected through a gas turbine 23, a connecting line.

The pneumatic impact mechanism works in the following ways.

The immersion rod 24 is passed through the tube 3 and the jamming elements 14 of the clamping device 1P1. After that, the pneumatic impact mechanism with the rod 24 is placed in the required position for driving and air is fed to the compressor, which through the plate 23 and inlet holes 17 enters the return chamber 20. Since at this moment the chamber 21 apertures about the stroke through the exhaust ports 18 is connected with the atmosphere, the end face of the impactor 2 on the side of this chamber is under the action of atmospheric pressure and the impactor 2 begins to move upwards, making sure idle. When it moves, it closes the inlet 17 and exhaust 18 holes. After the inlets 17 are closed, the air supply to the idling chamber 20 is stopped and the further movement of the striker 2 occurs due to the energy of the air expanding in this chamber. At the end of the idle stroke of impact shock 2, openings 17 and 18 open and communicate the idling chamber 20 with the atmosphere, and the working stroke chamber 21 with the highway.

The drummer 2 stops by the air pressure in the working chamber 21, and then begins the working stroke, i.e. it moves

down before applying.

a blow but the anvil 10. Exhaust holes 18 21 working stroke with atmosphere, and the inlet holes 17 - idle chamber 20 with a highway. In the following, the cycle repeats.

Under the action of impacts, which are transmitted to the rod through the anvil 10 and the wedging elements 14, the latter is immersed in the ground.

This embodiment of the pneumatic impact mechanism reduces the specific consumption of compressed air.

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Editor K. Voloshchuk Order 1397/28

VNIIPI USSR State Committee for Invention and Discovery

I3035, Moscow, Zh-35, Raushsk emb. 4/5 Production and printing company, Uzhgorod, ul. Project, 4

Compiled by N. ZaSyulotsk

Tehred I. VeresKorrektor T. Kolb

Circulation 607 Subscription

Claims (2)

1. PNEUMATIC FUR - NISM FOR DRILLING IN SOIL LENGTHS OF NUMBERED RODS, comprising a housing with holes and a central tube for accommodating a driven rod, a step striker with an axial channel exceeding the outer diameter of the tube, the working and idling chamber, characterized in that, in order to reduce the specific air flow, the idle chamber is formed by the walls of the housing and drummer as well. working chamber - by the walls of the body, drummer and tube. 2. The mechanism by π. 1, characterized in that the volume of the chamber of the working stroke exceeds the volume of the chamber of idling 3-4 times. oe oh oh ss ^ 1