SU1550126A1 - Arrangement for supplying liquid to mine machine cutting bit - Google Patents

Abstract

The invention relates to mining equipment, in particular to mining and mining machines. The goal is to increase the effectiveness of dust suppression and explosion protection in the destruction of rocks of different strengths by providing the possibility of changing the mode of supply of irrigation fluid (coolant). The device includes a tool holder (RD) 1 with a longitudinal hole under the cutter 4 mounted with the possibility of longitudinal movement, fixed by the ring 5. The cutter shank 4 is installed with the possibility of interaction with the piston 6 installed in the chamber 7 for supplying coolant. Behind the cutter 4 of the RD 1 is a valve sprinkler 8, which is hydraulically connected to the chamber 6 for supplying coolant. In front of the cutter 4 there is a nozzle (F) 9 with a nozzle and additional channels. One of the latter communicates a line for supplying coolant through a check valve 10 with a chamber 7 for supplying coolant. The other channel reports the main line for supplying coolant with F 9. The longitudinal axis of symmetry F 9 is located in the plane of rotation of RD 1, which passes through the longitudinal axes of symmetry of the cutter 4 and valve sprinkler 8. The sum of the areas of the bore sections of the additional channels is not less than the area of the bore section of the line Coolant With the destruction of soft rocks with F 9, only dust suppression is carried out. When the cutter 4 encounters strong rocks, the pressure in the chamber 7 of the coolant increases and the valve 10 blocks the access of the coolant from line 13 to the cavity 12. At the same time, the coolant from chamber 7 goes to the valve irrigator 8. This prevents sparking. 2 Il.

Description

The invention relates to mining equipment, in particular to mining and mining machines, the executive bodies of which are equipped

The rotary cutters are round and have systems for supplying fluid to them to dust suppression and prevent methane outbreaks and coal dust explosions from friction sparking arising from the incisors meeting with quartz-containing and pyrite-containing rocks.

The purpose of the invention is to increase the effectiveness of dust suppression and explosion protection in the destruction of rocks of different strengths by providing the possibility of changing the mode of supply of irrigating fluid.

FIG. 1 shows a device for supplying irrigating fluid to the cutting of a mining machine; in fig. 2 - the same, without a sleeve for mounting the cutter.

The device for supplying irrigating fluid to the cutter of the mining machine contains a tool holder 1 with a sleeve 2 held by a stopper 3, a cutter 4 mounted in a longitudinal hole of the tool holder with the possibility of longitudinal movement in the sleeve and fixed by a ring 5.

The cutter 4, with its shank, is in constant interaction with the piston 6 installed in the chamber 7 for supplying a spray liquid.

The tool holder 1 is equipped with a valve sprinkler 8 installed behind the cutter k and the nozzle 9 with a nozzle installed in front of the cutter k, while the sprinkler 8 and the nozzle 9 races

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about

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are diametrically opposed to the longitudinal axis of the cutter 4, and their longitudinal axes are in the plane of rotation of the toolholder 1 passing through the longitudinal axis of the cutter 4. In the case of the toolholder 1 there is a cavity in which the check valve 10 is located, while the cavity is designed so that when valve 10 is placed in it, two cavities are formed: front 11 and rear 12. Irrigation fluid from a power source (not shown) under the initial pressure P through line 13 for supplying irrigating fluid enters the front (low pressure) w) the cavity 11, from which goes through an additional channel 14 to the nozzle 9.

Through the valve 10, the irrigation fluid enters the rear (high-pressure) cavity 12 and then through the second additional channel 15 into the chamber 7, fills it and thereby pushes the cutter 4 to its original position. From chamber 7 through channel 16, irrigating liquid under the same initial pressure P is supplied to valve irrigator 8 of a known construction, which is ottarirovan to work under pressure of fluid in the system, 10-15% higher than the initial pressure R.

Positions 17 and 18 show process plugs to ensure the tightness of the hydraulic system of the device. I

FIG. 2 depicts a design variant characterized in that

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there is no sleeve 2 in which cutter k is placed, and piston diameter. 6 is smaller than the diameter of the longitudinal bore in the tool holder 1 for the cutter 4. A stopper 3 is provided to hold the piston 6 in the chamber 7 when replacing the cutter. Otherwise, this design variant is similar to the previous one.

The device works as follows.

In the above initial position, the cutter A causes the destruction of soft, non-friction sparks, rocks. In this case, using the nozzle 9, only dust suppression is performed, i.e. rocks are destroyed for which the force P developed by the initial pressure P multiplied by the area S of the piston 6 will be sufficient. When the cutter k encounters quartz-containing rocks causing friction sparks to form and an increase in force F to destroy them, the pressure in chamber 7 rises to the value (F , -F): Under pressure P, the check valve 10 blocks the passage of fluid from line 13 to the high-pressure cavity 12, and fluid from chamber 7 begins to be squeezed out by piston 6 due to movement of the cutter k along axis II, which has flowed out of valve sprinkler 8 under pressure P,. Having destroyed a solid section of the rock and preventing sparking due to the outflow of fluid from the valve sprinkler 8, cutter k continues to work on the destruction of soft rocks, watered only by working nozzle 9 through which fluid continues to expire under initial pressure P. As soon as cutter k out of engagement with the rock and the force FJ is removed from it, under the action of the initial pressure P, the valve 10 opens and the irrigation fluid enters the cavity 12, from it through channel 15 into chamber 7 and, acting on the piston 6, returns the cutter k to initial position .

For the operation of the entire hydraulic system of the device, it is necessary that the sum of the areas of the cross-section of the additional channels and 15 should be greater than or equal to the cross-sectional area of the master al 13, through which the fluid must constantly flow

501266

the initial pressure P in the quantity that meets the requirement

Q K-I + V l / min, where Q is the amount of liquid required for dust suppression and explosion protection, l / min,

k4P - the amount of fluid flowing from the nozzle 9, having a design flow rate K, l / min, V - the volume of the fluid flowing

from chamber 7, l / min. 15 The operation of the irrigation fluid supply device to the cutting edge of the mining machine in both structures of tool holders is absolutely identical.

2o In spite of the simpler construction of the device shown in FIG. 2, preference should be given to the device shown in FIG. 1, since in this embodiment, valve sprinkler 8 is located closer to the insert of cutter b, which increases the guarantee of explosion protection from friction spark due to 30 increasing the likelihood of fluid ingress both to cutter A itself, which is involved in the destruction, and on its trail, formed on the rock to be destroyed.

A device for supplying irrigating fluid to the cutter provides effective dust suppression when the rocks are destroyed due to the operation of the nozzle 9 under low initial pressure P 0 and explosion protection from frictional arcing when destroying hard rocks due to the operation of the valve nozzle 8 under high pressure developed by the cutter without using high pressure

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coca,

Formulas of the invention

Irrigation feeder,

fluid to the cutter of the mining machine, including a tool holder with a longitudinal hole under the cutter installed with the possibility of longitudinal movement, the shank of which is installed with the possibility of interaction with the piston located in the chamber for supplying irrigating fluid located in the tool holder

behind the cutter is a valve sprinkler that is hydraulically connected with a channel for supplying irrigating fluid, a check valve and a main line for supplying irrigation fluid, characterized in that, in order to increase the effectiveness of dust suppression and explosion protection during the destruction of rocks of different strengths by making it possible to change the supply mode irrigating fluid, it is equipped with a nozzle located in front of the cutter with a nozzle and additional channels, one of which tells the line for

supplying irrigating fluid through a non-return valve with a chamber for supplying irrigating fluid, and the other - a main line for supplying irrigating fluid to a nozzle, while the longitudinal axis of symmetry of the nozzle is located in the plane of rotation of the tool holder, which passes through

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the parent axes of symmetry of the incisor and irrigator, the sum of the areas of the flow areas of the additional channels being not less than the area of the flow area of the main line for supplying the irrigating fluid and.

12

Editor A. Dolinich

I am 11 fig 2

Compiled by A. Tolstoy

Tehred A. Kravchuk Proofreader. Shevkun

nineteen

12

Claims (1)

Claim A device for supplying irrigation fluid to the cutter of a mining machine, including a tool holder with a longitudinal hole for a cutter installed with the possibility of longitudinal movement, the shank of which is mounted to interact with a piston located in the chamber for supplying irrigation fluid located in the tool holder behind the cutter, a valve sprinkler, which the channel is hydraulically connected to the chamber for supplying irrigation fluid, a check valve and a line for supplying irrigation fluid, characterized in that, in order to to increase the efficiency of dust suppression and explosion protection during the destruction of rocks of various strengths by providing the possibility of changing the irrigation fluid supply mode, it is equipped with a nozzle in front of the cutter with a nozzle and additional channels, one of