CZ470U1 - Mine metal support strut - Google Patents

Description

(54) Expansion of mine steel reinforcement

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Technical solution. se. iýka. spans of mine steel reinforcement, which is designed to increase the stability of steel reinforcement, used to punch long mine workings to reinforce them. The spreader is designed especially for steel flexible arch reinforcement, made of rolled trough profiles and used for hard rock excavation.

BACKGROUND OF THE INVENTION

The prior art steel spacers used to increase the stability of mine steel reinforcement when driving long mine workings, in particular steel malleable arch reinforcements, consist of bars of different cross-sections, most often tubular or trough, and anchors to the reinforcement. The spacers are dimensioned according to the relevant dimensional standards. The design of the steel spreader, including the attachment to the reinforcement, must meet the condition of transfer of tension in the required force and buckling stress according to the specified test conditions. The improper design of the expander and its mounts necessitates a disproportionate robustness in the dimensioning of the individual mount components. Due to this prior construction, the connecting bolts of the expander bracket are particularly disadvantageously loaded. Due to the difficult definable state of the combined stress of the connecting bolts, when external force acts on the grip, they often destroy them and eject a portion of the connecting bolt into the mine space, jeopardizing the workers present and reducing the stability of the embedded steel reinforcement.

The essence of the technical solution

The above-mentioned drawbacks of the prior art are eliminated by the expansion of the mine steel reinforcement according to the present invention, which consists of a rod, at whose ends a bolt and nut is fastened to fix the expander to the reinforcement and connect the adjacent expander.

The essence of this solution consists in that the coupling is made of a flat flatter and both ends of the rod connected to the couplings by means of a screw in the holes of the rod and the coupling are provided with a seat. By this seat, adjoining from both sides to the outer lower edge of the steel flange profile flange, the displacement of the rod in the axial direction 14 &apos; This solution of the spreader bar is the area around the hole on the bolt bar and the coupling convex by a spherical indentation in which a recess on the coupling recesses the conical shoulder of the screw head bearing surface.

bu. Another solution of the spreader grip is that the hole of the rod and the coupling is lined with a common steel insert in which the screw is mounted, which insert can be firmly attached to the coupling, for example by welding. This new design of the expander achieves that the expander is seated between the expanded steel reinforcement parts practically without axial play and without the possibility of axial slipping of the expander rod and its coupling relative to one another. This eliminates the possibility of shear loading of the screws in its mounts. The new expander solution therefore allows for an exact strength dimensioning of the individual parts of its anchorage according to the anticipated stress by simple tensile force, transfer from the expander rod to its coupling and the buckling stress by direct transfer of force from the rod to the steel reinforcement. This solution is considerably more advantageous than the existing expansions. Its influence on increasing the safety of persons present in the mine, reinforced by steel reinforcement with these spacers, is also not negligible.

Overview of the drawings

The solution of the expansion of the mine steel reinforcement of the TiTgarw is explained in more detail in the accompanying drawing, in which FIG.

The overall arrangement of an exemplary embodiment of an angle profile spacer secured to two adjacent steel reinforcements in a top view. In further Figures, there is shown in detail the embodiment of the bracket, in Fig. 2 with a spherical indentation and in Fig. 3 in a variant embodiment with an insert in the hole for the connecting screw.

Example of technical solution

1 and 2 consists of a rod. Which may be of different cross-section. In this exemplary embodiment, the rod 6 is made of a steel rolled angle. The ends of the rods 3 is a bolt and a nut secured £ _2 clutch ^{in the} embodiment equal flats. For this connection, the rod 6 and also the coupling 2 are provided with an opening at both ends. The area around the bolt hole 8 is spherically pressed on the rod 6 and the connector 8, thereby forming bulge-shaped recesses 15 around the holes. The ends of the rod 4 are provided with a seat 7 which is oriented so as to abut the outer edge 8 of the steel flange profile flange. In this way, the displacement of the rods in the axial direction and in the direction opposite to the clutch 2 is blocked, i.e., in the opposite direction. in the radial direction as well as the relative displacement of the rod 1 and the coupling 2. A tapered shoulder 10 is embedded in the depression of the clutch 2, which is provided on the bearing surface of the screw head, as can be seen in FIG. the bar 4 and the connector 2 are lined with a common steel liner 8, the liner 6 being welded to the link 2 and the bar 4 slid through the opening to the outer diameter of the liner 6. the screw 4 is then seated in the insert 6 and the coupling 2 is clamped with the rod 8 over the washer 11 by tightening the nut 4.

Claims (3)

PROTECTION REQUIREMENTS A steel reinforcement spreader consisting of a bar at the ends of which a bolt and a nut is attached to the spreader to attach the spreader to the reinforcement and to an adjacent spreader, characterized in that the spreader (2) is of a flat flat and both ends of the bar (1) connected to the couplings (2) by means of screws (3) in the holes of the rod (1) and the coupler (2) are provided with a seat (7) blocking the axial and radial displacement by the outer edge (9) of the steel reinforcement profile (8) bars (1). Spacer according to claim 1, characterized in that the area around the screw holes (3) on the rod (1) and the coupling (2) is embossed with a spherical indentation (6), the recess of the coupling (2) being recessed in a conical shape. a shoulder (10) of the bearing surface of the screw head (3). Spacer according to claim 1, characterized in that there is a common steel insert (5) in the hole of the rod (1) and the coupling (2) for receiving the screw (3).