SU1416692A1 - Rock impact breaking device - Google Patents

Abstract

The invention relates to the field of mining exploration and allows for increased productivity due to the operational orientation of a wedge-shaped drummer (CG). The device includes a housing (K) 16 with a KU 17 placed therein, a cylinder 10 connected to the K 16 with a striker 12 inside. The dimple 12 divides the soles of the cylinder 10 into expansion chambers 13 and a platoon 14. Moreover, KU 17 is connected to K 16 by a T-shaped key 23 and an open groove (KP) 18 is made on its outer surface, and a longitudinal groove is on the inner surface K 16. 22. The key 23 has a protrusion placed in gearbox 18 and del w, and its cavity into two closed cavities. They are connected to the hydraulic system of the device through the holes in the K 16. Upon ignition of the gasoline-air mixture, the combustion products accelerate the firing pin 12 and the CG 17 lowers, and the key 23 slides over the groove 22. The turn of the CG 17 in the right direction is due to the pressure difference on the jumper KP 18. 2 Il. (Oh (L

Description

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The invention relates to mining exploration and can be used to destroy frozen soils in the management of workings, such as ditches or trenches.

The purpose of the invention is to increase productivity due to the operational orientation of the wedge-shaped drummer.

FIG. 1 shows the scheme of the proposed device, in which

percussion mechanism used benzino10

air hammer; on A-A in FIG. one.

FIG. 2 - section

The device includes a shock

drummer 17, pressed his blade to the rock being destroyed. In this case, part of the air from the platoon chamber 14 is forced out through the openings 15. At the lower position of the research institute of the striker 12, the exhaust opening 11 is opened and the combustion products are emitted into the atmosphere. When the striker moves upwards, the remnants of the combustion products are removed through valve 3. After the rock has been destroyed, the impactor 17 slides down relative to the housing 16, the T-shaped key 23, which protrudes into the annular groove 18, also slides along the groove 22. For protection against impact of the shoulder drummer 17 on the flange 27 has a damping mechanism containing chamber 1. combustion 28. When the pipelines connecting with inlet 2 and purge 3 valves - port 20 and 21 with hydraulic base, block valve 4, placed the howl, blocked 17 uder- inside the combustion chamber 1 in a glass 5 zhivaets against rotation relative to the apertures 6, 7 and the spark plug. housing 16, due to the incompressibility of the liquid, chamber 1 of combustion through spacer 8 with a cavity in cavities 24 and 25. When 9 is connected, it is connected with cylinder 10 from the exit of turn of the impactor’s blade 17 with a hole 11 The device (for selecting the radio is located a firing pin 12, dividing the volume inside the cylinder 10 into an expansion chamber 13) and a platoon 14 connected by a hole 15 by a pneumatic system (not shown). A housing 16 with a wedge-shaped striker 17 located inside it is attached to the lower end of the cylinder 10. The annular groove 18 with an axial web 19 is made on the impactor 17, and two holes 20 and 21 are connected to the hydraulic system of the base machine (not shown) in the body 16 on The inner surface of the body is made with a longitudinal groove 22, in which a T-key 23 is inserted, with a protrusion entering the annular groove 18 on the striker 17 and dividing it into two cavities 24 and 25, each of which has

thirty

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the direction of impact), for example, counterclockwise, hole 20 is connected to the pressure side, and hole 21 is connected to the drain line of the hydraulic system of the base machine. The pressure of the fluid in the cavity 24 becomes higher than the pressure in the cavity 25. Due to the pressure difference on the web 19, the impactor 17 rotates in the desired direction.

Thus, the striker blade is operatively oriented relative to the casing and the device as a whole, depending on the profile of the excavated output, which allows improving the performance of the proposed device by reducing the maneuvers of the base machine.

communicates with one of the holes 20 and 21 in the housing 16. Between the housing 16 and the hammer 17 there are sealing rings 26. The lower end of the housing 16 is closed by a flange 27, above which is mounted a shock absorber 28. The housing can be made in one piece with the cylinder 10.

The device works as follows.

The gasoline mixture is supplied to the formula of the invention.

40

A device for impact destruction of rocks, comprising a housing with a wedge-shaped hammer placed therein, a cylinder in which a firing pin is installed, which divides the cylinder cavity into expansion and platoon chambers, and a hydraulic system,

measure 1 of combustion through the inlet valve 2. increase productivity due to opera- tions. At the same time, the purge 3 and the blocking 4-orientation of the wedge-shaped

valves closed. Punch 12 by air-hammer pressure, the latter is connected to the hull

In the cavity of the platoon 14, fed through the T-key, an open annular groove is made on the outer surface of the hammer, and on the internal mixture in the combustion chamber 1, it is ignited by the ignition plug 7 on the inside surface of the body. Blocks-groove for placement in the last key,

the protrusion of which is placed in the annular groove and divides it into two closed cavities, which, through holes in the housing, are connected to the hydraulic hole 15, is pressed into the upper part of the cylinder 10. When the preset pressure is reached, the pressure valve 4 is thrown into the upper position in the glass 5. The products of combustion through the holes 6 and the channel 9 in the spacer 8 rush into the expansion chamber 13, accelerating the firing pin 12 before hitting the 55 system.

the torus 28. When the pipelines connecting the opening 20 and 21 with the base machine's hydraulic system are closed, the hammer 17 is kept from turning relative to the body 16 due to the incompressibility of the fluid in the cavities 24 and 25. the blades of the firing pin 17 with respect to the device (for selecting

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the direction of impact), for example, counterclockwise, hole 20 is connected to the pressure side, and hole 21 is connected to the drain line of the hydraulic system of the base machine. The pressure of the fluid in the cavity 24 becomes higher than the pressure in the cavity 25. Due to the pressure difference on the web 19, the impactor 17 rotates in the desired direction.

Thus, the striker blade is operatively oriented relative to the casing and the device as a whole, depending on the profile of the excavated output, which allows improving the performance of the proposed device by reducing the maneuvers of the base machine.

Claims (1)

Invention Formula 21 FIG. 2