CS273189B2 - Unloading jib for overburden dumping machine - Google Patents

Description

(57) The folding boom of the spreader consists of hinged sections (1) articulated to one another. The cross-section of the individual sections (1) of the lattice structure has a triangular shape, the sections (1) are suspended on load-bearing ropes (10) connected to the columns (3,9), one (3) attached to the frame (2) and the other (9). ) at the end of the third section (1) in the direction away from the frame (2). The first three sections (1) are provided at their ends with side beams (4,5). The ends of the side beams (4,5) are connected to each other from one side to the furthest section (1) from the frame (2); , tranches with side ropes (8) attached to the stitcher wound (2). The boom consists of at least six sections (1). The side beams (4,5) are triangular in shape. whose base is attached to the section (1) and the apex is above the bases.

<01 si ·

CS 273 189-2

BACKGROUND OF THE INVENTION The present invention relates to a tipping boom of a spreader designed to tilt a blanket of the pellet to be used.

A tilting boom of the collator is known, consisting of a longitudinal lattice structure articulated to the top of the collator. The boom consists of a swinging column to which the end of the boom is attached by a rope. The end of the swinging column is connected by a rope to the stacker tower.

The construction of the stacker tipping boom allows the construction of a boom up to 100 m long. This length is sometimes not sufficient, especially when the overburden or usable rubble needs to be tipped over obstacles on the soil surface or through working equipment. In such cases, very long conveying devices are built, which are needed to bypass the obstacle or other conveying devices.

This drawback has been remedied in the tilting boom of the stacker, consisting of hinged sections of the lattice structure interconnected by means of ropes on pendant columns connected by ropes to the tower according to the invention, characterized in that the cross-section of the individual sections is triangular. the stackers are provided at the end with lateral beams, the ends of which are connected by lateral ropes fixed on one side of the section furthest outward from the stacker, on the other side to the stacker frame and the cone of each section is connected to one of two swinging poles wherein the first pivoting column is attached to the frame and the second pivoting column to the end of the third section from the stacker frame.

The side beams are formed as a triangle whose base is attached to the section and the apex is arranged above the base.

The base of the side beams is connected by tensioning ropes to the end of the upstream side beam or the frame of the stacker.

The boom consists of at least six sections.

The corners of the triangular section of the section consist of profiles with a closed cross section, in particular of a square section, and are connected to each other by the sides of the triangle, the side section having a trapezoidal shape provided at the ends of the longer base side with an eye.

The first two double beams are articulated to the sections, the third pair of side beams are rigidly connected to the sections.

The side beams are articulated with sections provided with two meshes superimposed on the same axis by connecting rods.

The ends of the last side beams are connected by counter-wound ropes to a mast attached to the frame and anchor ropes to a mast attached to the third section.

The construction of the boom according to the invention allows a range of over 200 m, which was achieved by a series of sections with a triangular cross section, by providing the first three sections with lateral beams and connecting the ends of these beams with the last section. The triangular shape of the sections reduces the weight of the booms and substantially increases its stability, while the rigidity caused by the ropes is achieved without substantially increasing the weight.

The unloader according to the invention is further explained by way of example of one embodiment shown in the accompanying drawings, in which Fig. 1 shows an axonometric project, Fig. 2 shows a section of the unloader in side view, Fig. 3 shows a cross section through one section; and 5 are side beams.

The boom consists of six sections J, all of which are spatial beam structures. The individual sections 1 are articulated to one another. The first section χ is attached to the frame 2, shown schematically in the drawing. Attached to the frame 2 is a first pivot column 3, the lower part of which is connected to the wound 2 and the corner part is connected by the main ropes 11 to the tower. The first three sections 1 connected in an outward direction to the frame 2

CS 273 189 B2 and the upper part is connected by main ropes 11 to the tower. The first three sections 2 connected externally to each other with the frame 2 are provided at their ends with side beams 4, 2 and are arranged on both sides of the sections 2, and the first two pairs of side beams 4 are connected to the sections 2 by connecting the rods 6 are articulated and the third pair of side beams 3 is connected and fixedly by section 2. The tie rods 6 are provided with pairs of lugs 7 in which a side beam 4 is attached. The end beams of the side beams 4, 5 are connected by side ropes 8, one end of the side rope 8 being fixed to the frame 2, the other end fixed to the last section 2 which is furthest away from the frame 2 in the outer direction. In the connection of the third section 1 with the fourth section is. a second pivot column 9 is attached.

Each section 1 is hinged on two supporting lanes 10 on one of the two pivoting poles 3, 2, wherein the tops of the two poles 3, ²³ are connected by the main ropes 11. The ends of the third pair of side beams 5 are connected with In addition, the side beams 4, 5 are connected to the end beam 4 or the tensioning ropes 14 to the frame 2. The side ropes 8 and the tensioning ropes 14 stabilize the boom structure in a horizontal direction. The carrier rope 10 and the main rope 11 keep the boom with the conveyor attached to the boom and transporting the lumber to be balanced. The corners 15 of the triangular cross-section of section 2 consist of profiles with a closed cross-section, in particular square. In the side view, the individual segments 2 have the shape of a trapezoid, the longer side of which is provided with lugs 16 at the ends for the articulation of the individual sections 2 to each other.

Claims (8)

PS E DIMENSION 1 E Z U Tilting boom of a spreader, consisting of hinged sections of a lattice structure suspended by ropes on pendant columns connected by ropes to a tower, characterized in that the cross-section of the individual sections (1) has a triangular shape, the first three sections (1) facing away from the spreader are provided at the end with side beams (4, 5), the ends of which are connected by side ropes (8) fixed on one side to the section (1) furthest from the stacker, on the other side to the stacker frame (2) and of the section (1) is connected by a support cable (10) to one of two pivoting columns (3,9), of which the first pivoting column (3) is attached to the frame (2) and the second pivoting column (9) to the end of the third section ( 1) away from the frame (2) of the collator. Tilting boom of the collator according to claim 1, characterized in that the side beams (4, 5) are formed as a triangle, the base of which is fixed to the section (1) and the apex is arranged above the base. 3. The folding boom of the stacker according to claim 1, characterized in that the base of the side beams (4, 5) is connected by tensioning ropes (14) to the end of the upstream side beam (4) or the frame (2) of the stacker. 4. The tipper boom according to claim 1, characterized in that it consists of at least six sections (1). Tilting boom according to claim 1, characterized in that the corners (15) of the triangular cross-section of the section (1) consist of closed cross-sectional profiles, in particular of square, and connected to each other by the sides of the triangle. ) the shape of a trapezoid provided with an eye (16) at the end of the longer base side. Tilting arm of the spreader according to claim 1, characterized in that the first two pairs of side beams (4) are articulated to the sections (1), the third pair of side beams (5) being rigidly connected to the sections (1). 7. The folder boom according to claim 1, characterized in that the side beams i CS 273 189 B2 (4) are. articulated with sections (1) provided with two loops (7) lying on top of one another on the same axis, connecting rods (6). 8. The folding boom of the stacker according to claim 1, characterized in that the ends of the last. The side beams (5) are connected by counter-wound ropes (12) to a pole (3) attached to the frame (2) and anchoring ropes (13) to a pole (9) attached to the third section (1).