SU1606645A1 - Percussive device - Google Patents

Abstract

The invention relates to the mining industry, namely to impact devices for breaking rocks and man-made materials. The goal is to increase the efficiency of the device by reducing the hydraulic resistance. In the cavity of the housing 1 of the device there is a coaxially located head 3, made with a spool bore with a central collar and a protrusion 22. A sleeve spool 5 is placed in the spool bore and coaxially connected to the body 1 is a sleeve 9 and a separator sleeve 8. The spool bore and a separation sleeve 8 form a working 19 and cocking 20 cameras. The spool 5 and the sleeves 8 and 9 form the control chambers 27 and 28. Chambers 19 and 20 are connected via spool 5 alternately to pressure and discharge lines. As a result, the platoon and the working stroke of the striker 3 are carried out. The approaching of the working 19 and the platoon 20 chambers allows reducing the length of the pressure and drain channels and, as a result, their hydraulic resistance. 1 hp f-ly, 1 ill.

Description

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

The purpose of the invention is to increase the efficiency of the device by reducing hydraulic resistances.

The drawing shows the device. The percussion device comprises a housing 1, in the cavity of which a central hub 2 and a striker 3 are installed, made with a spool bore with a central collar. The device has a tool 4, a sleeve spool 5 with two rows of windows 6 and 7, a separating sleeve 8, a sleeve 9 of the working chamber of spool 5, stoppers 10, a foot 11, a cover 12 and a hydraulic accumulator 13 and 14. The hammer 3 is made with grooves Management 15-18. Coaxially to sleeve spool 5, sleeves 8 and 9 are rigidly connected to the body with stoppers 10 and forming working 19 and charging 20 chambers in the groove of the striker. The brake chamber 21 is formed by a protrusion 22 and a sleeve 8. The heads 3 are made prefabricated to enable the inserts 8 and 9 and the spool 5 to be installed during assembly of the device. The two halves of the striker 3 are fixed with a finger 11. The contours of the striker connector in the drawing are shown by a dotted line. The sleeve spool 5 contains two rows of windows 6 and 7 that connect the working chamber 19 and the cocking chamber 20 with the pressure line 23 or the drain 24. The spool 5 is controlled by control lines 25 and 26 connected respectively to the control chambers 27 and 28 formed by the spool 5 and the sleeves 8 and 9. The central sleeve has four rows of windows 29-32 for supplying pressure and discharge pressure to the working chamber 19 and the charging chamber 20. The sleeves 8 and 9 are fixed by means of stoppers 10 passing through body 1 and sleeve.

The operation of the device is described from the position shown in the drawing. In this position, the head 3 is in its highest position. The spool 5 is also in the upper position, since the chamber 27 of the spool 5 through the control line 25 and the groove 15 is connected to the pressure line 23, and the chamber 28 of the spool 5 through the control line 26 and the groove 17 is connected to the drain line 24. The hydroaccumulator 13 is fully charged female The action of the difference of forces arising in the working chamber 19 and the charging chamber 20, the hammer 3 begins to move down (working stroke), increasing its speed as it approaches the tool 4. During the acceleration process of the hammer 3, there is a continuous increase in the volume of the working chamber 19 fluid in it. Gid-,:: Kkumul torus 13, discharged significantly

increases the flow of fluid into the working chamber 19, which ensures the acceleration of the striker 3 to a given speed. At the end of the stroke, the bore 16 connects the control line 25 to the drain, and the bore 18 connects the control line 26 to the head, the spool 5 moves downwards and connects the working chamber 19 to the drain, and the charging chamber 20 to the head. At the same time, the striker 3 hits the tool 4. Thereafter, under the action of the difference of forces arising in the platoon chamber 20 and the working chamber 19, the platoon of the striker 3 begins (upward movement). During the charging, due to the slower speed of the striker 3 than during the working stroke, an excess in the flow rate of the feed pump (not shown) appears and the hydroaccumulator 13 is charged. At the end of the platoon, the groove 15 connects the control line 25 with a pressure, and the groove 17 - a control line 26 with a drain, the spool 5 moves up and connects the working chamber 19 with a pressure, and the charging chamber 20 with a drain, and the cycle of operation of the device is repeated. Hydroaccumulator 14 reduces peak pressure changes in discharge line 24 during operation of the device.

To prevent damage to the device when shooting or incomplete realization of the impact energy for useful work, the design provides braking of the striker 3. Braking is performed by increasing the pressure in the brake chamber 21 caused by throttling the liquid through the annular gap on the surface of the separation sleeve 8 and striker 3.

Claims (2)

1. A percussion device, including a housing, in the cavity of which a coaxial head and a sleeve spool with two rows of windows and two control chambers are placed, connecting the working and recharging chambers alternately with pressure and discharge lines, characterized in that increase the efficiency of the device by reducing the hydraulic resistance, it is equipped with two bushings, one of which is separation, and the firing pin is made with control grooves and a spool groove with a central collar, the sleeves being placed in gold Ikov cased bore pin spool coaxially and rigidly associated with the housing, and wherein the working chambers are formed by conductive platoon slide valve pin bore and dividing bushing, and the control chamber formed by the sleeve and spool hubs. 2. The device according to claim 1, characterized in that the spool groove of the die is made with a protrusion.