SU1643711A1 - Rotary percussive tool - Google Patents

Abstract

The invention relates to the mining industry and is intended for shock destruction of rocks. The goal is to increase the RCD and the reliability of operation of device B of the cavity of the stationary body 1 with the eccentric rotary drive 3 filled with driving medium, and the shock mechanism (UM) connected to the output drive shaft 1 of the rotational drive 2 (IM) is inertial 2 forms with the guide erasure 10 and tpu ker 1, a bare 12 platoon. The UM has two spring-loaded workers 7 relative to each other. Pistons 8 and 99 which form a pressure cavity 13 connected to the platoon cavity 12 with the case 5 of the MIND, and a volume compensator connected to the body 5 MIND with a spring 14 relative to case 50 Spring 14 is placed on the outside of the case 5 MIND. Compensator compensator m. made of two parts, sealed by itself and two flanges 15, 16, rigidly connected with each movable part of the housing 5; Others are also possible, due to the energy accumulated by the compressed spring 14 to compensate the volume, and transfer it through the drive the medium in the cavity 4 of the housing 5 of the IM 6s is carried out by two-way movement of the IM 6. When moving down, the IM 2 causes a Udzr on the instrument. 2 h „p. f-ly, 4 ich. “KC15 SVbJVi. Usssri

Description

The invention relates to the mining industry, namely to impact-rotating devices for breaking rocks and man-made materials.

The aim of the invention is to increase the efficiency and reliability of the device.

FIG. 1 shows a structural diagram of a device of a rotary percussion effect; in fig. 2 - section A-A in FIG. 1} in FIG. 3 and 4 show an embodiment of spring-loaded volume compensators.

The percussion-rotational device (Fig. T) contains a rotational drive with an output shaft 1 and a stationary body 2, provided with an impact mechanism with an eccentric ring Zg, having an inertial mass 5 in the cavity 4 of its body 5 with a central stepped channel and driving a percussion mechanism with two spring piston spring 7 piston mi

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8 3 9 mounted in the housing 5 with the possibility of axial movement and with the possibility of interaction with the eccentric ring 3 s. The housing 5 of the percussion mechanism is made with a hollow guide rod 10 and a plunger. 11, expanding with an inertial mass 6, an annular cavity 12 of a platoon “Pistons 8 9 9 form a pressure cavity with housing 5, 13 communicated with an annular cavity 12. The impact mechanism housing 5 is made with a spring-loaded volume compensator, consisting of two parts limited mutual displacement and compacted between each other, springs 14 and two flanges 15 "169 rigidly connected with each movable part of the housing; a spring 14 interacts with the flanges; housing 5 is rigidly connected with 1 drive and Tycs, including pressure head 13 and The end ring is filled with a driven medium. On pistons 89 9 there are rollers G / l 18s interacting with the eccentric cha ring

The volume compensator (FIG. 3) differs from the volume compensator of FIG. 1 in that the movable parts of the body 5 are interconnected by the telephone 19.

The volume compensator (Fig. 4) contains a core 20s fixed in the casing 5, in which the rod 21 s is spring-loaded with a possibility of limited movement. The cylinder is spring-loaded 22. The cylinder is closed by a hook 23s which is a support for the spring.

The device works as follows.

When the shaft 1 rotates, the housing 5 with the pistons 8, 9 rotates. At the same time, the rollers 179 18S rolling around the eccentric ring 36 communicate the pistons B. 9 axial movement. The pistons move towards each other, pushing the volume of the driving medium from the cavity 13 into the cavity 12. At the same time, the inertial mass 6 moves upwards and the volume of the housing 5 under the influence of the pressure of the driving medium increases. In this case, the movable parts of the housing 5 will be diverted and compressed by the springs 14 (Figs. 1, 3). When the pistons 8.9 are consumed by the action of the spring 7, the inertial mass 6 moves downward due to the energy of the compressed spring 14 and the pressure of this driving medium

in case 5 and strikes the tool. Then the cycle repeats,

The volume compensator (Fig. 4) works as follows.

When the pistons 8, 9 (Fig. 1) move counter-mass, under the action of pressure in the annular cavity 12, the mass 6 moves down and strikes the tool. At the same time, the rod 21 under the action of the pressure of the driving medium in the cavity 4 of the housing 5 moves to the left, compressing the spring 22. When the pistons 8.9 (Fig. 1) are discharged, the idling of the mass 6 under the action of the pressure in the cavity 4, caused by the elastic forces of the compressed spring 22 I

Thus, the two-sided movement of the inertial mass is carried out due to the energy accumulated by the compressed spring of the volume compensator and its transmission through the drive medium in the housing cavity to the inertial mass "Since the deformation of the spring causing pressure in the housing cavity may be insignificant and the spring is located outside the cavity the body of the percussion mechanism, this leads to an increase in efficiency and reliability of work by 10-15%.

Claims (1)

1. A shock-rotational device comprising a stationary drive body of rotation with an eccentric ring, an impact mechanism connected to the output shaft of the rotation drive, in the form of an inertial mass placed in the body cavity filled with the driving medium, forming a cocking cavity with the guide rod and plunger , the drive of the percussion mechanism with two pistons which are spring-loaded relative to each other, which are installed with, can interact with the eccentric ring and form a head with the percussion mechanism casing This cavity, which is connected with the cavity of the inertial mass, is connected to the body of the percussion mechanism by a volume compensator, which is so that, in order to increase efficiency and reliability, the volume compensator is spring-loaded relative to the body of the percussion mechanism, with This spring is placed on the outside of the latter. 51643711 The device according to claim 1, about the t of the l t t with that the volume compensator is made in the form of a sealing container, which is installed coaxially with the shock mechanic case, 3 The device according to claim "5, wherein the volume compensator is made in the form of a rod mounted in a cylinder mounted on the housing with 18 AT 3 Phi% .2 22Fig. FIG. H