SU1461900A1 - Compression-evacuation percussive machine - Google Patents

Description

The invention relates to mining and construction, in particular to compression-vacuum impact machines, such as electric scooters and perforators, used to destroy rocks and stone materials, as well as to make holes.

The purpose of the invention is to reduce the overall dimensions, reduce vibration and simplify the design.

Fig. 1 shows a compression-vacuum percussion machine, a longitudinal section; FIG. 2 is a section A-A in FIG. on fig.Z - part of the compression-vacuum machine Blow3146

action without rotation mechanism

no working tool, longitudinal section; figure 4 - section bb in fig.Z; Fig. 5 shows an embodiment of a machine with a gear in the form of de-balance and with a rotation mechanism of a device for fastening a working tool; figure 6 is a section bb In figure 5; Fig. 7 is a variation of the design of a machine with a rotational drive shaft; FIG. 8 shows sections of GG and DD in FIG. 7; FIG. 9 shows section EE of FIG. 7. The proposed compression-vacuum percussion machine (Figures 1 and 2) has a housing 1 with a motor (not shown) placed in it, a handle 2 and a starting device 3, as well as a bearing

4 engine separating it from the front part 5 of the housing. The engine has a drive shaft 6 with chopped

on it gears front

The housing 5 contains a percussion mechanism of the machine, including a barrel 7 with a system of compensating holes and a fixture 9 for fastening the working tool 10, in which the intermediate head 11 is also placed. 10 mounted bo

ek 12. The piston 13 is installed in a housing for reciprocating motion and has a diameter greater than the diameter of the striker 12, the larger the diameter of the piston, the smaller its stroke, and, consequently, the vibration caused by the movement of the piston, in addition, the transverse dimension cars, i.e. The diameter of the piston 13 can be chosen any large with the diameter of the striker 12, if it is placed in the specified transverse dimensions of the engine or the housing of the udany mechanism. The piston 13 is mounted so that at least part of its area is within the length of the barrel, i.e. The working surface of the piston is located along the shaft, and the machine length is shorter, the greater part of the barrel length is covered by the area of the piston 13.

The intermediate shaft 14 is installed parallel to the axis of the barrel 7 and has an eccentric pin 15, while the piston 13 has a mating hole in which an eccentric is mounted

ten

900

tricova pin 15 intermediate t-shaft 14. As shown in FIG. 3, the piston bore is made in the shank 16, pivotally connected to the pore by a screw. A gear 17 is fixed at the end of the intermediate shaft 14 and meshes with the gear of the drive shaft 6 so that the intermediate shaft is kinematically connected to the drive shaft by a bis piston 13. The intermediate shaft 14 is mounted in a housing on bearings 18. At the end of the shaft 14 opposite gear 17,

g is mounted gear 19, which is in engagement with the ring gear 20 of the device 9 for fastening the working tool.

ABOUT

g

five

In a compression-vacuum percussion machine in the form of a hammer (Fig. 3), the piston 13 is placed in a cylinder 21, the axis of which is perpendicular to the axis of the barrel 7. The axis of the cylinder can, if necessary, intersect with the axis of the barrel. Preferably, the axes of the cylinder and the barrel intersect or intersect at a right angle. The shank 16 of the piston 13 is pivotally connected with it by the axis 22 to compensate for manufacturing inaccuracies or misalignment and has an opening 23 (FIGS. 3 and 4) in which an eccentric pin 15 of the intermediate shaft 14 is installed. Between the hole 23 and the eccentric pin 15, rollers 24 can be mounted The cavity of the cylinder 21 communicates with the airbag chamber 25 through the opening 26.

The compression-vacuum machine of the impact works as follows.

When the starting device 3 is pressed, the rotation from the drive shaft 6 is transmitted through gear 17 to the intermediate shaft 14. When the intermediate shaft 14 rotates, its eccentric pin 15 retracts the piston 13 (FIG. 1-4), resulting in a cylinder 21 periodically air pressure pulses are transmitted through the opening 26 into the chamber of the air sub-leg 25 of the barrel 7. These pressure pulses force the firing pin. 12 move in the direction of the working tool 10 and strike on it. During the return stroke of the piston

Fc |.

LLA (turned)

Figg

1Z

,

J 2G / 17 I

FIG. 3

6-6

lt

FIG.

FIG. 6

FIG. 7

FIG. 8

Irf

17

Claims (1)

1. COMPRESSION-VACUUM SHOCK ACTION MACHINE, comprising a drive shaft located in the housing, an attachment for fastening a working tool, a barrel with a system of compensation holes and a striker installed therein for striking a working tool, a piston connected to the striker by means of an air cushion, and intermediate shaft kinematically connected to the piston and to the drive