SU937717A1 - Working member of stone-cutting machine - Google Patents

Description

The invention relates to stone cutting machines used for the extraction of blocks of rock and the cutting of natural stone or other materials.

Known disk working body of stone-cutting machines, including mounted on the shaft of the cutting disc with diamond-containing segments and the drive mechanism, and the cooling device 1 ...

The disadvantage of this cooling device is that they use water or aqueous solutions to cool the saw blade. In wintertime, especially at low temperatures, such cooling liquid freezes and the stone cutting machine becomes inoperative. In addition, in many cases, for example, when cutting natural gypsum, anhydride, stone salt, and a number of other minerals, the use of water is recommended. Consequently, it is advisable to cool the circular saws with stone-cutting machines in an anhydrous way.

The closest to the proposed technical solution is the working body of mountain stone-cutting machines, - including a cutting disc with alkozododerkI segments and radial channels in the housing, hollow drive shaft, 11 fixed hollow sleeve with one-sided coaxial with radial channels of the disc in the direction of the cutting zone, cover and drive mechanism.

When working this working body

10, through its fixed sleeve and the radial channels of the disk, superheated steam is supplied to the cutting elements, which & 1Y heats the rock and serves as a coolant for the C2 diamond segments.

However, the use of superheated steam is a major drawback, as this leads to additional heating of the diamond segments and diamonds.

20 they can burn. Therefore, such a working body must be equipped with special devices for cooling the cutting disc.

The purpose of the invention is to increase reliability due to the supply of refrigerant to the cutting zone.

The goal is achieved by the fact that the working body of a stone-cutting machine includes a cutting disc with diamond-containing segments and internal and radial channels, a hollow drive shaft, a fixed sleeve and a drive mechanism, while the fixed sleeve is provided with an inlet nozzle made in the form of a tangential nozzle, and She has a cochlea with a diaphragm-5 | eagma and an adjusting choke, and the adjusting choke is fitted on the side of the inlet nozzle, and the cochlea with a diaphragm - with a stand-off, tO

Figure 1 shows the working body. Mama's stonestone. {cut along the shaft axis), general view; On / figure 2 - section aa in FIG. one; on fig.Z - section bb in figure 1.- 15

The working body of a stone-cutting machine includes a cutting disk X with radial channels 2 and diamond-containing segments 3, a drive shaft 4, a stationary inner sleeve 5, x cover 6 and a drive mechanism 7 (conventionally, in the gear ring). Between the drive shaft and the sleeve are the bearings 8 and gaskets 9 ..

The stationary inner sleeve 5 is collapsible and consists of 5 bodies 10 with an inlet 11 in the form of a tangential nozzle, the cochlea 12 with a spiral inner-. diaphragm 13 with a central hole, nozzle 14 and throttle 15 with a cross-shaped year 16. Behind the throttle 15, a branch pipe 17 is mounted, which is covered with insulating material 35 18 (for example, mineral wool) and serves to drain hot gases.

In the front part of the body 10, a cutout, KOTOEYL, is aligned with the radial channels of the cutting disk 40 1 and is directed towards the cutting zone. The opening angle of this hole is equal to the contact angle of the disk. Destructive rock.

The working body of the stone cutting machine 45 operates as follows.

When discharging compressed air (or gas) through the tangential nozzle 11 into the lining 12, an intense turbulence is created, and the vortex 5 noTok of gas in the nasDka 14, as in a pipe, splits into two streams of Agh S, one of which has axial layers. Strongly. flows through the axial bore

Jiafragms 13 and later, following the inner cavity of the housing 10 and cutting a, falls into the radial channels 2 of the cutting disk 1, and then into the cutting zone, causing the diamond-containing segments, disk housing and surrounding rock to cool down, in another 6 flow peripheral layers The gas flow in the nozzle 14 is heated -and flow out through the opening of the dross / ly 15 and are removed through the branch pipe 17.

The parameters of the cold gas entering the drawing zone are controlled by the choke 15.

The proposed design of the working body / stone-cutting machine provides intensive cooling of the cutting disk and will allow the use of diamond cutting of rocks in quarry conditions in winter, i.e. Liquefied seasoning mining exploration. In addition, this eliminates the harmful effect of the refrigerant on the rock to be destroyed (the air is harmless), increases the labor productivity of workers and increases the output of the blocks compared to the traditional drilling and blasting method of extraction.

Claims (2)

Invention Formula The working machine of a stone-cutting machine, which includes a cutting disc with diamond-containing segments and internal radial channels, a hollow drive shaft, a fixed hollow sleeve and a drive mechanism, so that, in order to increase its reliability by supplying the coolant in the cutting zone, the stationary sleeve is provided with an inlet pipe made in the form of a tangential nozzle and a cochlea with a diaphragm and an adjusting throttle placed in it, while the adjusting choke is installed on the side of the inlet nozzle, and the cochlea diaphragm - from the side of the cutting disk. Sources of information taken into account in the examination 1 ABTOpckOe certificate of the USSR 446431, cl. In 28 D 7/02, 1974. 2. Copyright batch USSR 443171, cl. E 21 H 27/24, 1973 (prototype). -J in g - YU