PL153091B1 - Mine stand - Google Patents

Description

REPUBLIC POLAND PATENT DESCRIPTION 153 091 Patent additional patent n --- Int. Cl. ⁵ E21D 15/54 Reported: 87 01 29 (P. 263869) Priority - READING GENERAL OFFICE PATENT Application announced: 88 09 29 RP Patent description published: 1991 09 30

The inventors ^on the ^{way of} the l: Kozieł George, Adam Klima, Kystian Lipinski, Janusz Babsztyn, Leszek Serafin, Charles Mazur, Joseph K & Ninski

The holder of the patent: Rozbaark Coal Mine, Bytom (Poland)

MINING RACK

The subject of the invention is a mining stand intended for securing the underground ceiling in ^the mining pit in conditions of soft or sandy floor.

Stable hydraulic props, commonly used in the underground of mines to protect the roof of mining excavations, apart from numerous very valuable advantages, have the disadvantage that due to their high support and a relatively small foot area, their unit pressure on the floor of the excavation is also quite high. This pressure is of no great importance when there are strong rocks such as sandstone, sandy shale, etc. in the bottom of the mining excavation. However, when there are soft rocks in the bottom of the mining excavation or the exploitation is carried out from the bottom upwards with a hydraulic backfill, then the stand's foot is pressed the floor and the stand partially lose its support, and during its robbery it is very difficult to pull the stand from the floor. To prevent this, so far a wooden pad with a sufficiently large surface has been placed under the foot of each stand. This activity was performed under an undeveloped ceiling, which often resulted in a mishap. Moreover, such pads are only suitable for single use.

From the description of Polish patent no. 84 775, a mining stand is known to be fitted into a floor plate articulated with the stand's foot. This connection is made on the basis of the spherical cups of the stand foot and the support seat of the floor plate supported on one another. Such a structure of the mining stand does indeed solve the problem of reducing the unit pressure on the floor of the headstock through the increased area of the floor plate. Moreover, it enables the stand to tilt in all directions in relation to its longitudinal axis. However, in the case of soft floor or sand, the floor plate of this stand is resistant to pressing it against the floor, sometimes so much that when robbing a stand, it was often necessary to detach the floor plate from the stand in order to frame it. These difficulties are of great importance in the case of using a pendant housing, when it is for relocation153 091

In the case of the casing assembly, it is first necessary to lift the feet of the stands to a certain height and only then move them to the new workplace. Spągowa plate of the stand, littered with rubble scales rhyme or muddy sand backfilling, then puts a very large resistance, and any work to zmiiejszenia this resistance are very dangerous and often end wP ^{and (dkiem.}

The mining stand, which is the subject of this manual, does not have the disadvantages and inconveniences described above.

The essence of this stand consists in the use of a floor plate divided symmetrically by a plane perpendicular to its working surface, passing through the longitudinal axis of the stand. This plate is articulated with the foot of the stand by means of a pin permanently fixed to the bottom surface of the foot and with both ends placed in the handles permanently connected to the upper surface of both parts of the bottom plate. Moreover, on the upper surface of the floor plate, two support brackets are fixed in the symmetry axis between the handles. The vaulted upper surfaces of these brackets are inclined at an angle corresponding to the angle of inclination of the lower surface of the stand foot. The floor plate can also be articulated with the stand by means of a pin inserted in the hole of the handle welded to the foot of the stand and in the holes of the brackets permanently attached to the lower surface of both parts of the floor plate. In both parts of this plate, rectangular openings are constructed in the symmetry axis perpendicular to the plane of their division. Moreover, additional reinforcing ribs situated perpendicular to their supports are permanently fixed in both these parts. Such a coratruction of the upper stand allows it to distribute its pressure on a reciprocally large surface of the floor, which effectively prevents the floor plate from pressing into the soft floor rocks. On the other hand, by dividing the floor plate into two parts and articulating it with the stand, it was possible to fold this plate while robbing the stand, so that it presents only minimal resistance, several times less than the resistance of the previously known co-structure.

The subject of the invention is illustrated in the drawing in which fig. 1 shows the floor plate with a stand foot in a partially sectioned side view, fig. 2 - the same plate in top view, fig. 3 - floor plate in the state folded in side view, fig. 4 - one part of the base plate of a different structure, in top view, fig. 5 - the same part in a cross section along line AA marked in fig. 4, and fig. 6 - a plate in the cross-section along the swine axis connecting the floor plate with the stand foot.

As shown in Figs. 1-3, the mining prop according to the invention ends with a supporting foot 1 detachably connected to the trestle. A horizontal hinge in the form of a pin 2 with a length greater than the diameter of this foot is welded from below to this foot, with half the length of this pin marked with the longitudinal axis 3 of the stand. At both ends of the pin 2, extending symerically beyond the contour of the thrust foot 1, there are mounted handles 4 permanently attached to the upper surface of the floor plate 5. The plate has the shape of a polygon and is divided symmetrically into two parts by a plane perpendicular to its working surface and passing through the longitudinal axis 3 of the stand and the axis of the pin 2. The round, lower edges of the bottom plate 5 are chamfered, and the other edges of both its parts are slightly spaced apart. Moreover, a support 6 is welded to each part of the bottom plate 5, located in the axis of the axis perpendicular to the parting plane. The inner upper surfaces 7 of these brackets are inclined at an angle corresponding to the angle of inclination of the lower surface of the foot 1 of the stand. In the state in ^ra entrapments when the rack is lifted up spągowa plate 5 consists as. this is shown in Fig. 3. Both parts in this state. of this plate form an angle greater than 90 ° between them. In the place where the stand is placed, when it is spread between the ceiling and the floor of the headland, both parts of the floor plate 5 ° in contact with the floor will open automatically until the eomeeLiu, when the support foot 1 of the stand rests with its lower surface on the upper surfaces of 7 supports 6. From of this eomethite, the stand obtains its initial and then working strength. During the robbery, the rising stand with its foot 1 lifts the floor plate 5, which

153 091, the parts folded along the parting plane take a favorable shape for easy pulling it out of a soft or sandy floor.

The floor plate 8 shown in Figs. 4-6 is circular in shape with the outer edges chamfered from below. This plate is also divided symeerically into two parts by a plane perpendicular to its working surface and passing through the longitudinal axis 3 of the stand. In the center of the floor plate 8, perpendicular to the plane of its division, a rectangular opening 9 is made, and on both sides of this opening two oval openings 10. The center of the rectangular opening 9 of the floor plate 8 is defined by the longitudinal axis of the stand, with the upper edges of this opening, parallel to the plane division, are chamfered. In this opening there is a fluted handle 11 permanently connected to the stop foot 12 of the stand. The holder has a shape similar to an isosceles triangle, directed with its apex downwards, and is provided with a hole through which a pin 13 joins articulating the stand's foot 12 with the floor plate 8 by means of brackets 14 permanently attached to the lower surface of both parts of the plate. One of the supports 14 of each part of the floor plate 8 is provided with a sleeve 15 permanently fixed on the external side. Moreover, reinforcing ribs 16 are attached perpendicular to these brackets.

The operation of a stand with a floor plate of this structure is similar to that of the stand described above, with the difference, however, that when setting the stand, both parts of the floor plate 8 must be pivoted outwards. For this purpose, both parts of the floor plate 8 must be pivoted outwards by means of appropriate hooks placed in the oval holes 10 8 opens outwards and remains in this position until this plate lies on the floor of the excavation.

Claims (2)

Patent claims 1. A mining stand equipped with a floor plate, intended for securing the roof in mining excavations, especially in conditions of soft or sandy floor, characterized by the fact that it has a floor plate (5) divided symmetrically by a plane perpendicular to the working surface of this plate and passing through the longitudinal axis (3 ) of the stand, which plate is articulated with the foot (1) of the stand by means of a pin (2) permanently connected to this foot and the ends placed in the holders (4) permanently fixed on the top surface of both the bottom plate (5), on the upper surface of the floor plate (5), between the handles (4), two support brackets (6) are fixed in the axis of symmetry (6) with a reciprocating upper surface (7) inclined at an angle corresponding to the angle of inclination of the lower surface of the foot (1) of the stand. 2. The rack according to claim A floor plate (8) according to claim 1, characterized in that it has a bottom plate (8) divided symmetrically by a plane perpendicular to the working surface of the plate and passing through the longitudinal axis (3) of the stand, which plate is articulated with the stand foot (12) by means of a damaged pin (13) in the hole of the handle (11) permanently connected to the foot (12) and in the holes of the brackets (14) permanently attached to the bottom surface of both parts of the bottom plate (8), rectangular holes (9) are made in both parts of the bottom plate (8) in the symmetry axis perpendicular to the plane of their division, and additional reinforcing ribs (16) are mounted perpendicular to the supports (14). 153 091 Fig.1 Fig. 2 153 091 FigF 153 091 Fig 5 Department of Publishing of the UP RP. Circulation 100 copies Price: PLN 3,000