PL69296Y1 - Grip-type face netting - Google Patents

Description

Pattern description

The subject of the utility model is the latch lining mesh used to make the support of the support frame in mining excavations.

When boring mining excavations in the arch support, there is a need to protect the exposed roof and side walls against rocks tearing off and falling inwards. Such protection consists of commonly used cladding nets placed on the frames of the enclosure during its erection. Such nets are produced in various forms in accordance with the Polish standard PN-G-15050 and are longitudinal bars and transverse bars connected to each other by welding. A popular, widespread construction is a hook net known, for example, from the utility model W. 95124, which is characterized by the fact that every second longitudinal bar is shorter than the cladding length by an amount resulting from the width of the section on which it is installed, the bar ends are bent in a perpendicular plane mesh in two lines. The bent ends of the longer bars engage the outer surface of the V-section flange, and the ends of the shorter bars touch the inner side of the trough section pointwise. The load-bearing capacity of this type of cladding mesh is determined by the tensile strength of the bent ends, which are subject to bending under load, and in special cases the mesh may "slip" behind the housing, which is unacceptable. The presented solution is sensitive to this phenomenon due to the fact that the internal bent ends in point are supported on the surface of the tray, and the "play" between the tip of the bent shorter end of the longitudinal bar and its point of contact with the ridge of the V-tray does not allow to achieve full tensile strength of the bent bar.

The solution according to the formula eliminates this inconvenience.

The essence of the solution is that the shorter longitudinal bars are bent so that they adhere to the inner side of the trough section, and the angle between the mesh plane and the plane in which the bent bar lies is 85 ° ± 15 °, while the length of the bent section is within in the range of 4 to 15 bar diameters, and the height of the bend does not exceed the height of the bent section of the longer longitudinal bar.

Moreover, the bending angle of the longer bar section corresponds to the inclination angle of the section flange, while the angle between the mesh plane and the plane in which the bent bar lies is within the range of 90 ° ± 5 °.

The cladding mesh according to the present solution is characterized by increased bending strength of the bent ends of the longitudinal bars, which results in greater load-bearing capacity, and at the same time increases the work safety. Appropriately bent ends of the shorter longitudinal bars make the ends adhere perfectly to the surface of the V-type tray, and simultaneously absorb the bending stresses under the influence of the load from the rock mass. The bend length and the appropriately selected deflection angle have a positive effect on the distribution of the bending moments of the bent ends and contribute to increasing the load-bearing capacity of the cladding, which was confirmed by tests on a testing machine. The structure of the mesh is simple to make, brings economic benefits and, for comparable strength parameters, it can be made of longer length for increased spacing of arches, which brings additional economic and technological benefits.

The patterned cladding mesh is illustrated in the drawing, in which Fig. 1 is a side view of one end seated on a trough section, Fig. 2 is a top view of the mesh, and Fig. 3 is an end view of the mesh at the folded ends of the longitudinal bars.

As shown in the drawing, the lining mesh consists of longitudinal bars, shorter 1, longer 2, and transverse bars 4 and 5 connected to each other by welding in the form of a rectangular mesh grid. The longer bars 2 have their ends 2a bent to the height H such that they adhere tangentially to the outer flange 3a of the trough section 3, and the angle a between the mesh plane and the plane in which the bent bar 2 lies is within the range of 90 ° ± 5 °. In turn, the shorter longitudinal bars 1_ are bent so that they adjoin the inner side of the trough section 3, and the angle jj between the mesh plane and the plane in which the bent bar 1 lies is 85 ° ± 15 °, while the length of the bent section 1a is within in the range of 4 to 15 bar diameters, and the bend height h does not exceed the height H of the bent section 2ą of the longer longitudinal bar 2. The longitudinal bars are arranged with each other in a pitch vl ± so that the longer bar alternates with the shorter bar. Transverse bars with a diameter dg are placed in the Wg scale and have two lengths. The central bars 5 have a length that extends beyond the outline

the cladding and the remaining transverse bars 4 have a constant length equal to the width of the cladding. In the solution presented in the formula, the longitudinal and transverse pitches can be the same as well as of variable size along the length and width of the cladding.

Claims (2)

Protective reservations 1. Cladding mesh composed of longitudinal bars of two different lengths with bent ends and straight transverse bars, also of two lengths welded together to form rectangular meshes, characterized in that the shorter longitudinal bars (1) are bent in such a way that adjacent to the inner side of the channel section (3), and the angle (jł) between the mesh plane and the plane in which the bent bar (1) lies is 85 ° ± 15 °, while the length of the bent section (la) is within the range 4 up to 15 diameters (di) of the rod, and the height of the bend (h) does not exceed the height (H) of the bent section (2ą) of the longer longitudinal rod (2). 2. The mesh according to claim 1, characterized in that the bending angle of the section (2a) of the longer bar (2) corresponds to the inclination angle of the flange of the section (3), while the angle (o) between the mesh plane and the plane in which the bent bar (2) lies is in the range 90 ° ± 5 °.