RU188187U1 - COMPRESSION SPRING FOR SPRING SUSPENSION - Google Patents

Abstract

The inventive utility model relates to railway transport, for spring suspension of biaxial bogies of freight cars, in particular a spring set and springs included therein.

The compression spring for spring suspension is cylindrical, helical, which is a beam, the axis of which is parallel to the helix of the cylinder generatrix, with working and supporting coils. The average spring diameter ranges from 168 mm to 172 mm, and its index, defined as the ratio of the average diameter of the coil to the diameter of the spring rod, ranges from 5.667 to 5.931. The spring is made of steel with a yield strength of at least 1470 MPa. The angle of elevation of the axis of the helical bar of the spring ranges from 5.853 to 6.229 degrees, and the length of the axis of the working part of the helical bar is from 2094 mm to 2149 mm.

The inventive design allows you to design an external spring with geometric characteristics that provide increased operational reliability of the spring suspension of a biaxial bogie of a freight car.

Description

The inventive utility model relates to railway transport, for spring suspension of biaxial bogies of freight cars, in particular a spring set and springs included therein.

A known construction of a freight wagon trolley (Utility Model Certificate RU 16482, B61F 5/00 of 01/10/2001), comprising a frame based on axle boxes of wheel pairs, including sidewalls connected by a nadresornoy beam. The nadressornoj beam is mounted on double-row springs, and connected to the side frame using friction wedges, also supported by double-row springs. Double-row springs under the nadressornoj beam, consist of external and internal springs, while one spring has a greater height in the free state than the other. Under the friction wedges, double-row springs with the same height of the outer and inner springs are installed, and their height is equal to the height of the larger of the springs installed under the spring bar.

This design covers a large number of spring suspension versions of biaxial bogies of freight cars, which can be conditionally divided into three groups. The first group of designs will never be able to ensure the health of the node. The second group of designs can ensure the health of the site, but does not meet the requirements of regulatory documents. The third group of designs can ensure the operation of the unit and satisfy the requirements of regulatory documents, but it is not possible to determine this many useful options. The disadvantage of this design is the fact that the range of geometric characteristics of the spring suspension springs is not indicated, ensuring compliance with the requirements of GOST 9246-2013 “Biaxial three-element carts for freight cars of 1520 mm gauge railways. General specifications. "

A device is also known - a spring kit for suspending a bogie of a freight railway car (Utility Model Patent RU 101986, B61F 5/06 of 10/27/2010), consisting of nine symmetrically arranged two-row, coil, coil springs, two of which are equipped with friction wedges, and seven are located under the nadressornoj beam. The spring set has internal springs under the friction wedges, external springs under the friction wedges, internal springs under the spring bar, external springs under the spring bar, made in decreasing order of height.

This design is selected as a prototype for the claimed utility model.

A significant drawback of this design is the presence in the spring set of four different springs, varying in height in the free state, the diameter of the rods and the working number of turns. This construction design increases the range of parts of the spring kit, which in turn increases the cost of the spring kit in the new product and leads to an increase in the cost of repairing the unit in operation. Also, four different sizes of springs in the spring kit increase the complexity of assembling biaxial bogies of freight cars, primarily associated with the selection of kit springs in height.

The problem to which the claimed utility model is directed is to create an external spring installed in the spring suspension with geometrical characteristics that will allow creating complete with the corresponding internal springs the spring suspension of a two-axle truck of a freight car with seven double-row springs providing operational reliability, as well as ensuring compliance with the requirements of GOST 9246-2013 "Biaxial three-element carts of freight cars of 1520 mm gauge railways. General specifications. "

The problem is solved due to the fact that the spring design has an average diameter of the coil in the range from 168 mm to 172 mm, and the index, defined as the ratio of the average diameter of the coil to the diameter of the spring rod, is in the range from 5.667 to 5.931. In this case, the spring is made of steel with a yield strength of at least 1470 MPa. In addition, the angle of elevation of the axis of the helical bar of the spring ranges from 5.853 to 6.229 degrees, and the length of the axis of the working part of the helical bar is from 2094 mm to 2149 mm.

The essence of the proposed design lies in the fact that the outer compression spring for spring suspension is cylindrical, helical, which is a beam, the axis of which is parallel to the helix of the generatrix of the cylinder, with working and supporting turns, the average diameter of which ranges from 168 mm to 172 mm, and the index, defined as the ratio of the average diameter of the coil to the diameter of the spring rod, ranges from 5.667 to 5.931, while the spring is made of steel with a yield strength of at least 1470 MPa, in addition, the axis of the solid beam is an interval from 5.853 to 6.229 degrees, and the length of the axis of the working part of the screw beam is an interval from 2094 mm to 2149 mm.

The technical result from the claimed utility model is to increase the operational reliability of the spring spring suspension of a biaxial bogie of a freight car, in combination with the requirements of GOST 9246-2013 “Biaxial three-element carts of freight cars of 1520 mm gauge railways. General technical conditions ”to ensure the specified movement of the compressed part of the railway carriage in the empty and loaded state and with an increase in the level of interchangeability and maintainability, with a decrease in the cost and complexity of manufacturing and repair in operation of spring suspension.

An external compression spring for spring suspension, with an angle of elevation of the axis of the screw beam, comprising an interval from 5.853 to 6.229 degrees, and with a length of the axis of the working part of the screw beam, comprising an interval from 2094 mm to 2149 mm, made of steel with a yield strength of at least 1470 MPa, provides a margin of stresses in the spring from operational loads to permissible stress values in the range from 13.61% to 24.55%. As a result, the presence of a margin to allowable stresses reduces the likelihood of a break in the spring rods and failure of the spring trolley kit in operation.

In support of this statement, table 1 shows from a variety of options several possible options for the manufacture of springs.

Currently, the claimed utility model has developed design documentation and comprehensive tests have been conducted.

Claims (1)

The compression spring for spring suspension is cylindrical, helical, which is a bar, the axis of which is parallel to the helix of the cylinder generatrix, with working and supporting coils, the average diameter of which ranges from 168 mm to 172 mm, its index, defined as the ratio of the average diameter of the coil to the diameter the spring rod, ranges from 5.667 to 5.931, while the spring is made of steel with a yield strength of at least 1470 MPa, characterized in that the angle of elevation of the axis of the screw beam is in the range from 5.853 to 6.229 degrees, the length of the working part of the screw axis of the beam is the interval from 2094 mm to 2149 mm.