RU1828930C - Powered supports of stopes - Google Patents

Abstract

Usage: fastening underground mine workings in the extraction of minerals. SUMMARY OF THE INVENTION: a powered support comprises a base with a caterpillar chassis, water stands mounted thereon, hydraulic ram jacks and billboards of intersection space. The ceiling is made of trough-shaped frames. An additional shield is installed in front of the base. A traveling jack is mounted on the last perpendicular to the longitudinal axis of the base. A hook is pivotally fixed to its rod in the form of a hitch for interacting with the support of the metal support frame. The cylinders of the additional hydraulic jacks are fixed on the base parallel to the axis of the base, and the rods on the additional shield. 3 ill. ё

Description

The invention relates to mining and can be used to fix mines in mines.

The aim of the invention is to increase the safety of work by reducing the time of exposure of roof rocks directly above the face and increasing, as a result, the productivity of ore extraction.

In FIG. 1 shows the mechanized support from the side of the collapsed part of the approach; in FIG. 2 - the same side view; in FIG. 3 is a diagram of the location of the lining assemblies at the time the frame is moved.

The mechanized support of the cleaning runway consists of the support frames 1 and the base 2. The support frames consist of a trough-shaped profile and shields 3 fixed to them.

overlapping gaps between the frames. The frame elements (racks, beds, tops) are interconnected by means of hinged joints 4 and locks 5. The beds of each lining frame are equipped with wooden beams 6, which provide improved conditions for the movement of the base. The base consists of a caterpillar undercarriage 7 and a platform 8. The hydraulic jacks 9 and 10 are installed on the base platform, respectively for vertical and horizontal support of the base in the runway. The front part of the base platform is equipped with an additional shield 11 designed to enclose the collapsible part of the entry 12 and the direction of the rearranged support frame. Per00 N5 00 О is installed on an additional shield

With

ABOUT

perpendicular to the longitudinal axis of the platform, a hydraulic jack for moving the roof supports 13, to the stem of which the oarlock 14. is connected. An additional shield is connected to the rods of additional hydraulic jacks 15 mounted on the platform parallel to the longitudinal axis of the latter. Additional jacks are designed to move the additional shield and the hydraulic jack of the roof support frame along the longitudinal axis of the base in the forward and backward directions. Such an additional shield movement is designed to adjust (if necessary) the oarlock in the hook with the rack support frame, which is to be rearranged and repelled by the collapsed mountain masses from the rearranged support frame. To operate all the jacks, an oil station 16 and a control panel 17 are installed on the base platform.

Mechanized support treatment sludge works as follows.

From a recessed drift perpendicular to its axis, an approach is carried out with simultaneous fastening with frames 1 (the length of the entry is 35-40 m). When the entry into the drift is parallel to the excavation mining combine and the face conveyor, they are transferred to the excavation drift and the next entry is started to be worked out next to the spent entry. At the same time, the base 2 from the excavating drift is led into a spent runway, which is fixed by the frame support 1.

When excavating the face 18 of the worked-in sunset 19 to a depth equal to the dimensions slightly more than the width of the lining frame 1, the rearrangement of the lining frames from the spent log into the worked-out one begins. For this reason. 2 with the help of a caterpillar chassis 7 lead to the following permutation to the lining frame 1, so that the rowlock 14 is opposite the lining rack facing the worked-out sunset 19. Then, if necessary, the accuracy of the hook of the rowlock 14 with the rack, hydraulic jacks 15 is adjusted and the lock 5 is loosened. In this case, the top to the frame 1 can be lowered down, as shown in fig. 2, After that, the base is laid with hydraulic jacks of vertical 8 and horizontal strut 10 in the frames of the lining. Then, with the help of a hydraulic jack 13, the lining frame is moved to the worked-out run-in 19 until the frame stops against the wall of the run-in. After that, the stock with oarlock 13 is returned to its original position. In this case, the oarlock 13, in contact with the rear side with the second rack of the rearranged support frame, rotates in a hinge, moves away from the stop and goes beyond the rack. After

of this or at the same time all the rods of the jacks of the thrust are retracted and the base 2 is brought to the next support frame by means of a caterpillar chassis. All production

the necessary operations indicated above, to the beginning of the frame movement and to the moment of excavation of the worked-out approach to a certain depth, the prepared support frame is rearranged. Thus, the cycles continue until the end of the notch of the entry. Then the extraction equipment is a conveyor, a combine, and after it the base 2 is withdrawn by the worked out approach back to the excavation drift and they begin

5 to complete the next run in the order described above.

As a base 2 and engines, a running gear with an engine — 0 of the KMSh-A extraction machine — was used, and as hydraulic stands 9 and expansion hydraulic jacks 10 — hydraulic jacks of the 20KP-70 complex withstand loads of up to 50-60 tf / m2. As a hydraulic jack of movement 13 is5

a Kamatsu dump truck was used with a feed force of up to 100-120 tons.

The use of mechanized support for treatment openings will reduce

0 time of exposure of roof rocks over the working face and to exclude the need for people to be in the face when installing and removing supports. At the same time, the entry during the collapse of the overlying rocks is reliably isolated with an additional shield.

In addition, ore losses are reduced by a factor of 2–3 (depending on the thickness of the layer to be removed) due to a more complete

0 to recovering inter-entry pillars and, accordingly, the cost of extracting ore from openings is reduced. So, for example, the use of the present invention when excavating a manganese ore deposit with a capacity of

5 ore bodies 1.5 m allows to reduce ore losses in columns by 5%.

Claims (1)

SUMMARY OF THE INVENTION Mechanized support for treatment openings, including a base made in the form of a caterpillar chassis, water stands installed on it, hydraulic ram jacks and shutter boards, intersection space connected by hydraulic stands, characterized in that 5 that in order to increase the safety of work by reducing the time of exposure of roofing rocks, the overlap is made of metal frames of a trough-shaped profile, the base is equipped with an additional shield mounted on the front of the base with a hook, and additional hydraulic jacks whose cylinders are fixed on the base parallel to the longitudinal axis of the base, and the rods are mounted on an additional shield, while the hydraulic jack for moving the frames of the lining is set to doses n g b 8 9 7 S FIG. 1 An additional shield is perpendicular to the longitudinal axis of the base, and a hook made in the form of an oarlock for interacting with the support of the metal support frame is pivotally mounted on the rod of the hydraulic jack for moving. And S 9. Yu. 3. L / 5. 7 1 5 S fig.Z