RU99493U1 - KNOCKING MACHINE - Google Patents

Abstract

 1. The tamping of the tamping machine, comprising a rod with a sealing blade, characterized in that the cross section of the rod is a figure with rounded corners and / or corners without rounding, selected from the group comprising a rectangle, triangle, I-beam; a figure similar to a rectangle, triangle, I-beam, having convex outward sides; moreover, each of the listed figures is oriented so that one of the sides of the rectangle, triangle, or flange of the I-beam is parallel to the plane of the scapula. ! 2. The punch according to claim 1, characterized in that the convex sides of the rectangle and / or triangle and / or I-beams have slopes not exceeding 10 °. ! 3. The hammering according to claim 1, characterized in that the wall of the I-beam is partially or completely made lattice or hollow. ! 4. The punch according to claim 3, characterized in that the area of the holes in the lattice or hollow wall of the I-beam does not exceed 90% of the wall area.

Description

The utility model relates to devices for the construction and repair of railway tracks, in particular, to the structures of the lining blocks tamping machines.

The tamping of the tamping machine is a vibration tool that processes the ballast in a fluidized state, and is a rod, the lower end of which is made in the form of a blade that moves the ballast under the sleepers during horizontal movement of the tamping blade across the interspersed space. The main type of force that the punch rod takes in during its operation is a bending force arising from both the squeezing-expanding of the punch during its horizontal movement across the inter-sleeper space and from vibration. Most of this effort is perceived by those sections of the cross section of the rod that are directly adjacent to the blade and further away from the blade, counting in the direction of the thickness of the blade.

There is a known tamper with a rod having a rhombic cross section, the rhombus being oriented so that one of its axes of symmetry is parallel to the plane of the blade, i.e. the blade is fixed on one of the corners of the rhombus (see the prospectus of the BTI company).

The disadvantage of this tamping is the low strength of the rod, due to the following. The maximum stresses experienced by the rod during its bending are at the vertices of the rhombus, i.e. to the minimum cross-sectional area of the rod. In addition, the rhombus peaks experience maximum wear from the abrasive effect of the environment. This reduces the life of the lining.

The closest in technical essence, the achieved effect and selected as a prototype is the tamping of the tamping machine, in the form of a rod with a removable blade, and the rod has an oval cross-section (see paragraphs of the Russian Federation for invention No. 2049841 according to class E01B 27/16 declared 01.07.1993, publ. 10.12.1995 "Lining of the tamper machine").

The disadvantage of this tamping is also a small service life, due to insufficient strength of the rod. As with the hammering indicated above, the minimum cross-sectional area of the rod accounts for the zone of maximum stresses experienced by the rod when it is bent, and increased abrasive wear.

The objective of this utility model is to increase the service life of the lining.

The technical result obtained by the implementation of the utility model is to increase the resistance of the rod to breakage and wear during operation of the hammer.

This problem is solved due to the fact that in the known tamping of a tamping machine containing a rod with a sealing blade, according to a utility model, the cross section of the rod is a figure with rounded corners and / or corners without rounding, selected from the group consisting of a rectangle, a triangle, I-beam; a figure similar to a rectangle, triangle, I-beam, having convex outward sides; moreover, each of the listed figures is oriented so that one of the sides of the rectangle, triangle, or flange of the I-beam is parallel to the plane of the scapula.

The convex sides of a rectangle, and / or a triangle, and / or an I-beam may have slopes not exceeding 10 °.

The wall of the I-beam can be lattice or hollow, and the area of the holes in the lattice or hollow wall of the double tee does not exceed 90% of the wall area.

Studies conducted on the sources of patent and scientific and technical information showed that the claimed lining is unknown, i.e. meets the criterion of novelty.

Lining can be made at any enterprise specializing in this industry, because this requires well-known materials and standard equipment, and is widely used to seal the ballast of a railway track, i.e. is industrially applicable.

The implementation of the rebound in the claimed form allows you to strengthen the rod by increasing the area of its cross section in those places of the section that experience maximum stress during bending from vibration and compression-expansion of the run. It is also important that the part of the rod, which protrudes relative to the rear plane of the blade, which undergoes significant abrasion during operation of the hammer, is erased and thinned, which can lead to a break in the shaft of the hammer. The claimed solution allows you to concentrate a significant part of the cross-sectional area of the rod near the scapula, leading to the fact that this significant part of the cross-sectional area of the bar is part of the overall dimensions of the scapula. This allows you to reduce the size of the rod, protruding relative to the rear plane of the blade and, therefore, to reduce the cross-sectional area of the rod experiencing abrasion during operation of the hammering, which reduces the risk of fracture of the rod.

Thus, the inventive design of the lining allows you to increase the resistance of the rod to breaking during operation of the lining and, therefore, to increase the service life of the lining.

The implementation of the cross section of the rod in the form of figures with rounded corners and convex outward walls makes it possible to technologically simplify the manufacture of tacks and reduce the concentration of destructive stresses.

The implementation of the I-beam with a lattice or hollow wall allows you to get a lightweight hammering, ballast compaction with which requires less energy.

The utility model is illustrated by drawings, which depict:

Figure 1 Lining, General view.

Figure 2 View aa in figure 1.

Figure 3: Cross-sectional views of the lining rod — a rectangle, a triangle, an I-beam made with sharp corners; rectangle, triangle, I-beam, made with rounded corners; rectangle, triangle, I-beam, made with convex outward walls.

The tamping of the tamping machine comprises a rod 1 with a sealing blade 2. The cross section of the rod 1 is a figure with rounded corners and / or corners without curvature, selected from the group comprising a rectangle, triangle, I-beam; a figure similar to a rectangle or triangle, an I-beam having outward convex sides; moreover, each of the listed figures is oriented so that the sides of the rectangle, triangle, or flange of the I-beam are parallel to the plane of the blade 1. The specific form of the figure depends on the operating conditions of the hammer. So when processing heavier compacted types of ballast, a more massive rod with a rectangular cross-section is used, on light types of ballast, lightened hammers with a rod having a cross-section in the form of an I-beam with a lattice or hollow wall are used.

Work using the lining is as follows.

Using the mechanisms of the tamping machine, a vibrating hammer, the rod 1 of which at the same time experiences a bending load in the plane perpendicular to the plane of the blade 2, is forcibly buried in the ballast. This causes the ballast to fluidize. After the blade 2 reaches the knockout of the desired immersion depth, the blade 2 is horizontally moved across the sleeper box, picking up ballast under the sleeper, and the knockback is returned to its original position. At the same time, the lining rod 1 experiences an additional bending load in the same plane. Given that the rod 1, having a cross-sectional shape, for example in the form of a rectangle oriented with its side along the plane of the blade 2, can withstand significant bending loads, and also that the rod 1, having a slight protrusion relative to the rear plane of the blade 2, is smaller degree is destroyed by abrasive load, it is clear that, compared with the prototype, the resistance of the rod 1 to fracture is higher and, therefore, the service life of the hammer is higher.

Claims (4)

1. The tamping of the tamping machine, comprising a rod with a sealing blade, characterized in that the cross section of the rod is a figure with rounded corners and / or corners without rounding, selected from the group comprising a rectangle, triangle, I-beam; a figure similar to a rectangle, triangle, I-beam, having convex outward sides; moreover, each of the listed figures is oriented so that one of the sides of the rectangle, triangle, or flange of the I-beam is parallel to the plane of the scapula. 2. The punch according to claim 1, characterized in that the convex sides of the rectangle and / or triangle and / or I-beams have slopes not exceeding 10 °. 3. The hammering according to claim 1, characterized in that the wall of the I-beam is partially or completely made lattice or hollow. 4. The punch according to claim 3, characterized in that the area of the holes in the lattice or hollow wall of the I-beam does not exceed 90% of the wall area.