SU791846A1 - Pneumatic percussive device - Google Patents

Description

The invention relates to construction equipment and can be used for driving flexible core elements into the ground, mainly grounding electrodes, anchors, etc. Pneumatic percussion devices are known that contain a hollow cylindrical body, a hammer located therethrough, having a through axial cavity tube, clamping fixture mounted to the body through the elastic element, nut with air supply channels 1 and The disadvantages of the known devices are low strength and ovechnost transmission housing part in view from a shock pulse through the firing pin koKtakty movable body and rigidly attached thereto nut. From the nut, the impact pulse is also transmitted through the rigid connection to the body. These pulses in the housing cause transverse vibrations and deformations, which, when combined with working longitudinal vibrations, lead to high amplitude values of stresses in some parts of the housing that prematurely destroy the housing and the rigid connection of the nut to the housing. Another disadvantage of the known devices is the low reliability of its operation, since it is possible that the striker is wedged between the coaxial surfaces of the housing, the nut and the tube due to the technological errors of manufacture and assembly. In order to avoid jamming of the hammer, large gaps are made between the hammer, nut, body and tube, which leads to an increased consumption of compressed air and distortions of the hammer relative to the parts adjacent to it. Distortions cause the radial beats of the striker along the walls of the housing and the nut and drastically reduce the strength of these parts. The purpose of the invention is to increase the strength, reliability and durability of the mechanism. The goal is achieved by the fact that the drummer is in a pneumatic percussion device containing a hollow cylindrical body and a drummer inside it.

having a through axial cavity installed in the latter tube, a clamping device mounted to the body through an elastic element and a nut with air supply channels is provided with a sleeve fixed to it by means of a shock absorber, and the nut is attached to the body and the tube using elastic elements and the tube can be made groove for connection with the elastic element of the nut, in addition, the latter can be. enclosed in a sleeve.

FIG. 1 shows the device in the forward position of the hammer; in fig. 2 - sectional device along exhaust ports; in fig. 3 - a movable connection of a tube with a nut, the second option.

The pneumatic device consists of a housing 1, a hammer 2 placed in housing 1, a nut 3 covering the internal cavity of housing 1 and mounted to housing 1 through an elastic element 4, clamping device 5 mounted to housing I through an elastic element 6, and a through tube 7 located in the central axial channel of the drummer 2.

The tube 7 is installed at one end in the clamping. the device 5, and between the end of the tube 7 and the clamping device 5 there is a shock absorber 8, and at the other end of the tube 7 there is a groove 9, with which the tube 7 is connected to an elastic element 10 mounted to the nut 3.

In the central part of the drummer 2 is equipped with a shock absorber And, on which is mounted the sleeve 12.

On the inner cylindrical surface of the housing 1, longitudinal grooves 13 are formed, forming with the sleeve 12 channels 14 for supplying compressed air to the idling chamber 15 formed between the housing 1, the clamping device 5 and the front part of the hammer 2.

The rear part of the drummer 2 forms with the housing 1 and the nut 3 the camera 16 of the stroke. Between the inner and outer cylindrical surfaces of the nut 3 and the tube 7, as well as between the ends of the striker 2 and the elastic element 10, a cavity 17 is formed, connected to the atmosphere by channels 18 made in the elastic element 10.

The holes 19 (Figs. 1, 2), made between the longitudinal slots 13 in the side wall of the housing 1, serve to periodically connect the idling chamber 15 to the atmosphere.

The nut 3 has a channel 20 for supplying compressed air supplied by the hose 21, which is connected to the nut 3 by means of a sleeve 22.

The submerged element 23 is secured in the pneumatic impact mechanism by means of the clamping device 5.

FIG. 3, the elastic element 10 mounted to the nut 3 is provided with a sleeve 24 abutting against the end of the tube 7.

The device works as follows.

The submersible element 23 is passed through the tube 7 and fixed into the device by means of the clamping device 5. Compressed air du 21 and the channel 20 enters the working stroke chamber 16 and through the channels 14 into the idling chamber 15.

 Since the area of the firing pin 2 from the side of the idle chamber 15 is larger than the area of the firing pin 2 from the side of the camera 16 of the working stroke (by the amount of the vertical projection area of the front end of the firing pin 2),

drummer 2 begins to move backward (in Fig. 1 - to the right), making idling.

After overlapping channels 14 outer cylindrical surface of the sleeve 12

0, the entry of compressed air into chamber 15 is stopped and the striker 2 moves to the right due to the energy of compressed air expanding in chamber 15. At the end of idler striker 2, the cylindrical surface of sleeve 12 opens exhaust ports 19 and exhaust from chamber 15 idle move. Drummer 2 stops and, under the action of compressed air in chamber 16, strikes clamping attachment 5.

The described cycle is then repeated. Due to the presence of shock absorbers, the shock pulses transmitted by the striker to the housing have low amplitude values, which practically do not affect the strength and durability of the housing.

The elastic elements between the coaxially mated parts serve as compensators for the technological faults of their manufacture and assembly, therefore the condition of self-alignment of these parts relative to each other is ensured. In this way, unreliable operation of the mechanism is ensured with minimum gaps between moving parts, i.e. jamming, distortions and radial beats of the striker are excluded, and, in addition, the total consumption of compressed air consumed by the device is reduced.

The manufacturability of manufacturing and assembling the device is increased, and its cost is significantly reduced, since high-precision manufacturing of main parts is not required to ensure their relative position. All parts, with the exception of the impactor and jig, can be made from undoped structural steels.

Claims (3)

Pneumatic impact device comprising a hollow cylindrical body, a hammer located therein, having a through axial cavity, a tube installed in the latter, a clamping device mounted to the body through an elastic element, a nut with air supply channels, characterized in that increase durability, reliability and durability, the impactor is equipped with a sleeve fixed to it by means of a shock absorber, and the nut is attached to the body and to the tube by means of elastic elements. 2. A device according to claim 1, characterized in that a groove is made in the tube for connection with an elastic element of a nut. 3. The device according to claim 1, characterized in that the elastic element placed between the nut and the tube is enclosed in a sleeve. Sources of information taken into account in the examination 1. USSR author's certificate according to application No. 2517202 / 29-33, E 02 D 7/02, 1977. 2. USSR author's certificate on application no. 2557762 / 29-33, E 02 D 7/02, 30.06.78.  23 8 e 7 g 2. tf 11 12. f3 It t ie 2JD 22 2.1 3 P 18 10 9