RU2652480C1 - Traction rolling stock brake shoe - Google Patents

Abstract

FIELD: transport machinery.

SUBSTANCE: invention refers to the field of railway transport, in particular to the brake shoes of the traction rolling stock. Brake shoe contains the steel frame with two ledges and the friction element. Main part of the friction element is made with the cast-iron insert, which is located in the main part in such a way that during the operation of the shoe, the insert contacts the rolling surface of the wheel and does not contact the ledge of the wheel. Frame ledges are located in the central part of the shoe. Insert is placed in the central part of the shoe in the gap area between the frame ledges. Polymeric composite friction material is placed in the gap between the frame ledges.

EFFECT: improved performance of the shoe, the increase in the possibility of deformation of the end parts of the shoe under the action of the pressing force with compensation of the difference in the curvature of the working surface of the shoe and the rolling surface of the wheel, as well as the increase in the service life of the wheel ledge are achieved.

1 cl, 3 dwg

Description

The invention relates to railway transport, in particular to brake pads of traction (locomotives and motocarriers) rolling stock, working with tribological coupling not only with the rolling surface of the wheel, but also with the surface of the wheel flange ("ridge" block).

An analogue of the claimed invention is a ridge brake shoe of a rail vehicle, comprising a metal frame with two ridges located on the end parts of the frame, three polymer composite friction elements, two of which are placed on the ridges of the shoe frame and fixed to the surfaces of the frame crests, and the third polymer composite friction the element is placed on the frame of the block and fixed to the surface of the frame (see patent RU No. 133073, IPC B61H 1/00, 2013). The essential features of the analogue "metal frame with two ridges, a polymer composite friction element placed on the frame of the block and fixed to the surface of the frame" coincide with the essential features of the claimed invention.

The disadvantage of the analogue is the reduction in the characteristics of the pads during operation due to the formation of defects on the working surface of the pads and the rolling surface of the wheel due to the absence of elements in the block that smooth defects, cleaning the rolling surface of the wheel and preventing the working surface of the pads from being sharpened, that is, preventing negative operational influences on tribological conjugation .

Another analogue of the claimed invention is a brake shoe comprising a steel frame, a main arcuate cast-iron part and a profile cast-iron (comb) part with a stream made in it, the shoe is equipped with numerous cylindrical inserts fixed by welding on a steel frame, the abrasiveness of the material from which the inserts are made exceeds the abrasiveness of the material from which the block is made, while the inserts placed in the toroidal part of the block are made of friction composite material a metal matrix, and the inserts which are in the airfoil pads made of antifriction composite material with metal matrix (See. Patent RU №126300, IPC V61N 1/00, 2012 YG). The essential features of the analogue "steel frame, the arcuate part, the profile part with a stream made in it, an insert mounted on a steel frame" coincide with the essential features of the claimed invention.

The disadvantage of the analogue is the low performance of the pads, requiring high pressure in the brake system, which leads to the implementation of pads made of cast iron, which has a lower coefficient of friction compared to polymer friction composites, as well as the complexity of manufacturing pads, due to the many inserts and the need for a "metallurgical" approach to making pads (cast iron casting).

The closest analogue of the claimed invention is a brake shoe traction rolling stock containing a steel frame with two ridges and a friction element comprising a main part and a profile part of a polymer composite friction material, while the main part is made with two cast iron inserts of non-magnetic cast iron placed radially to the working surface of the main part outside the central and end parts of the shoe in such a way that during operation of the shoe, the inserts are in contact with the surface the rolling wheel and do not contact the wheel flange (see patent RU No. 2563519, IPC B61H 1/00, 2015). The essential features of the closest analogue are “steel frame with two ridges, a friction element made of a polymer composite friction material, including the main part and the profile part, the main part is made with a cast iron insert, the insert is placed so that during operation of the block, the insert is in contact with the rolling surface of the wheel and not in contact with the wheel flange "coincide with the essential features of the claimed invention.

The disadvantage of the closest analogue is the low performance of the block when it is installed on an existing rolling stock in which the diameter of the rolling surfaces is reduced due to wear of the rolling surfaces of the wheels. The possibility of the frame bending under the action of pressure in combination with the high compressibility and recoverability of the polymer composite material from which the friction element of the block is made allows, under the action of the forces pressing the block to the wheel during braking, to compensate for the difference in the curvature of the working surface of the block and the rolling surface of the wheel. But the arrangement of inserts from cast iron, which is practically not compressible during these efforts, used in the block does not allow for sufficient compensation either in the central part of the block or in its end parts, since the compensation prevents the inserts from being placed in the rigid fixation zones of the ridges to the steel frame. This does not allow the frame to bend to at least partially compensate for the difference in the curvature of the working surface of the shoe and the rolling surface of the wheel.

Another drawback of the closest analogue, also due to the location of the inserts in the areas of rigid connection of the carcass flanges with the carcass, is the possibility of increased wear of the outer (relative to the rolling surface) surface of the wheel flange, which reduces the wheel service life. Since when the pads are pressed against the wheel, the solid (almost incompressible) cast-iron inserts tend (due to the non-orthogonality of the direction of action of the pressing force and the rolling surface of the wheel) to move away from the ridge along this surface, a biasing force arises on the ridges, which forces them to press the polymer composite friction material of the stream to the outer surface of the ridge (hence the increased wear of this surface).

The task to which the claimed invention is directed is to improve the operational characteristics of the block when it is mounted on a wheel already in operation (replacing the blocks), by increasing the possibility of deformation of the end parts of the block under the action of pressure with compensation for the difference in the curvature of the working surface of the block and the surface of the wheel , by reducing the number of inserts, changing the location and changing the location of the crests of the pads and their sizes. In this way, an increase in the operational resource of the wheel flange is also achieved, since the pressure of the friction composite material on its outer surface is reduced.

, где

- длина гребневой части колодки, D - длина колодки, вставка размещена в центральной части колодки в зоне промежутка между гребнями каркаса, толщина вставки выбрана из соотношения: L=0,9÷1,4N, где L - толщина вставки, N - длина промежутка между гребнями каркаса, при этом в промежутке между гребнями каркаса размещен полимерный композиционный фрикционный материал.To achieve the specified technical result in the brake shoe of a traction rolling stock comprising a steel frame with two ridges and a friction element, including the main and profile parts made of a polymer composite friction material, the main part being made with a cast-iron insert placed in the main part in such a way that during operation of the block, the insert is in contact with the rolling surface of the wheel and not in contact with the wheel flange, the ridges of the steel frame are located in the central Asti pads, wherein the length of the spine part pads (pads profiled part formed therein with a stream) is selected from the relation:

where

- the length of the ridge part of the block, D - the length of the block, the insert is placed in the central part of the block in the gap between the frame ridges, the thickness of the insert is selected from the ratio: L = 0.9 ÷ 1.4N, where L is the thickness of the insert, N is the length of the gap between the ridges of the frame, while in the interval between the ridges of the frame placed polymer composite friction material.

, где

- длина гребневой части колодки, D - длина колодки, вставка размещена в центральной части колодки в зоне промежутка между гребнями каркаса, толщина вставки выбрана из соотношения: L=0,9÷1,4N, где L - толщина вставки, N - длина промежутка между гребнями каркаса, в промежутке между гребнями каркаса размещен полимерный композиционный фрикционный материал» являются отличительными от признаков наиболее близкого аналога.The essential features of the claimed invention "the crests of the frame are located in the Central part of the block, while the length of the crest of the block is selected from the ratio:

where

- the length of the ridge part of the block, D - the length of the block, the insert is placed in the central part of the block in the gap between the frame ridges, the thickness of the insert is selected from the ratio: L = 0.9 ÷ 1.4N, where L is the thickness of the insert, N is the length of the gap between the crests of the frame, in the interval between the crests of the frame placed polymer composite friction material "are distinctive from the features of the closest analogue.

In FIG. 1 shows a block, view from the side of the steel frame. In FIG. 2 shows a longitudinal section AA of a pad. In FIG. 3 shows a cross section BB in the central part of the block.

гребневой части колодки составляет от 0,5 до 0,7 длины D колодки. На каркасе зафиксирован фрикционный элемент 3. Фрикционный элемент выполнен из композита, включающего полимерную матрицу и различные дисперсные, в том числе волокнистые, наполнители. Фрикционный элемент состоит из основной части 4, имеющей сложную форму, и профильной части 5, в которой выполнен ручей 6. Основная часть снабжена чугунной вставкой 7, размещенной в центральной части колодки радиально к рабочей поверхности 8 основной части в зоне промежутка 9 между гребнями каркаса. Толщина L вставки составляет от 1 до 1,4 длины N промежутка между гребнями каркаса. В промежутке между гребнями размещен полимерный композиционный фрикционный материал, вследствие чего образуется непрерывный ручей по всему гребню колодки. Торцевые части 10 колодки не имеют гребня. Чугунная вставка поверхностью 11 при эксплуатации колодки контактирует с поверхностью качения колеса (после истирания приработочного слоя 12), но не контактирует с гребнем колеса в течение всего периода эксплуатации. Вставка не выходит в профильную часть фрикционного элемента, поверхность ручья которого контактирует с гребнем колеса при эксплуатации. Гребни каркаса и профильная часть фрикционного элемента образуют гребень колодки 15.The block of the traction rolling stock includes a steel frame 1 with two ridges 2. The ridges of the frame are located in the central part of the block. Length

the crest of the pad is from 0.5 to 0.7 of the length D of the pad. A friction element 3 is fixed on the frame. The friction element is made of a composite including a polymer matrix and various dispersed, including fibrous, fillers. The friction element consists of a main part 4 having a complex shape and a profile part 5, in which a stream 6 is made. The main part is equipped with a cast-iron insert 7 located in the central part of the block radially to the working surface 8 of the main part in the zone of the gap 9 between the ridges of the frame. The thickness L of the insert is from 1 to 1.4 of the length N of the gap between the ridges of the frame. In the gap between the ridges, a polymer composite friction material is placed, as a result of which a continuous stream is formed along the entire crest of the block. The end parts 10 of the pads do not have a crest. Cast iron insert surface 11 during operation of the block is in contact with the rolling surface of the wheel (after abrasion of the running-in layer 12), but does not contact the wheel flange during the entire period of operation. The insert does not extend into the profile of the friction element, the surface of the stream of which is in contact with the wheel flange during operation. The crests of the frame and the profile of the friction element form the crest of the pads 15.

A specific example of the claimed traction rolling stock pads is a composite brake pad with a deep grip made of a URALATI-3018 polymer friction composite. The block is equipped with a central insert made of ductile iron with spherical graphite.

The inventive block can be made by known methods, for example, molding the molding mixture to a metal frame on which a cast-iron insert is previously fixed, for example by welding.

The implementation of the pads of the claimed design allows to improve performance when installing a new pads on a wheel that was already in operation (i.e. worn out), with a reduced radius of the rolling surface. Placing the insert in the central part of the block makes it possible to provide the necessary curvature of the working surface of the main part of the friction element of the block (due to the compressibility of the polymer friction composite) during operational pressure by bending the end parts of the frame, on which there are no ridges. The absence of ridges on the end parts of the frame and the presence of a gap between the ridges facilitates such deformation, and filling this gap with a polymer composite friction material preserves the solidity of the friction element of the block both along the main and its profile parts, which ensures that there are no changes in tribological conjugation under such deformations. In aggregate, the operational characteristics of the block-wheel friction pair increase, especially in the case of using new blocks on existing blocks (replacing blocks at stations during maintenance of the train).

Claims (1)

The brake pad of the traction rolling stock, comprising a steel frame with two ridges and a friction element, including a main and a profile part made of a polymer composite friction material, the main part being made of a cast iron insert placed in the main part such that during operation of the pad, the insert contacts with the rolling surface of the wheel and is not in contact with the wheel flange, characterized in that the flanges of the frame are located in the central part of the block, while the length of the flange part these pads are selected from the relation: l = 0.5 ÷ 0.7D, where l is the length of the crest of the block, D is the length of the block, the insert is located in the central part of the block in the gap between the frame ridges, the thickness of the insert is selected from the ratio: L = 0.9 ÷ 1.4N, where L is the thickness of the insert, N is the length of the gap between the ridges of the frame, while in the interval between the ridges of the frame placed polymer composite friction material.

Images