RU103521U1 - SIDE FRAME OF THE TRUCK OF A CAR - Google Patents

Abstract

 1. The side frame of the freight car truck, comprising a closed upper horizontal belt with consoles forming axle openings, a closed closed lower belt with a support platform for the spring kit, two inclined belts connecting the upper and lower belts, vertical columns, technological windows, a central spring aperture limited by the support platform for the spring set, the upper belt and vertical columns, the radius transitions from the support platform to the vertical columns, the inner ribs on an inclined ах belts adjacent to the radial transitions, protrusions in the area adjacent to the inner ribs to the radial transitions, and outer ribs adjacent to the protrusions, characterized in that the distance from the center of the radius transition to the vertical column is less than the radius, inner ribs adjacent to the radius transitions, connected to the technological windows tangentially to their edging, and the axis of each protrusion coincides with the line of intersection of the inner edge with the cylindrical surface of the radius transition. ! 2. The side frame according to claim 1, characterized in that to each protrusion adjoin two outer ribs, one of which is a continuation of the supporting platform, the second is a continuation of the radius transition. ! 3. The side frame according to claim 1, characterized in that the distance from the center of the radius transition to the vertical column is 0.5 ... 0.8 of the radius.

Description

Useful, the model relates to railway rolling stock, in particular to the design of the cast side frame of a freight wagon trolley.

There are various designs of the side frames of the trucks of freight cars (RU 2323843 C1, B61F 5/52, 05/10/2008; UA 8939 U, B61F 5/52, 08/15/2005; US 5546869, B61F 5/52, 08/20/1996; US 6543367 B1 , B61F 3/00, 04/08/2003). They are made in the form of steel casting and contain an upper horizontal closed-section belt with consoles forming axle openings, a lower closed-section belt with a support platform for a spring kit, two inclined belts connecting the upper and lower belts, vertical columns, technological windows, a central spring aperture . To reduce stresses during the transfer of operational loads in the transition zone from the support platform to the vertical columns and inclined belts of the frame, internal stiffeners located on the inclined belts and external stiffeners on the support platform are provided, and the radial transitions from the support platform to the vertical columns are made under right angle. Analysis of the stress state of these structures shows a jump in stress at the radius transition and insufficient frame strength in this zone and in the lower part of the process windows, which reduces the reliability of the structure. The reason for the low strength of such frames is casting defects: loosening, shrinkage shells and other casting defects resulting from the formation of thermal units in this zone that concentrate these defects.

In the known side frame, an attempt has been made to increase the reliability and safety factor of fatigue resistance by forming protrusions at the radial transitions from the supporting platform to the vertical columns in the convergence zone of the outer ribs. The protrusions integrate the outer ribs, mate with their side surfaces and create conditions for directional crystallization (see patent RU 2294855 C1, B61F 5/52, 03/10/2007 - adopted as a prototype).

The disadvantage of the design is its lack of strength and low safety factor of fatigue resistance, which leads to failure in operation and reduce the life of the freight car.

The technical result, the solution of which the utility model is aimed at, is to increase the strength of the side frame in the area of the spring opening, increase its reliability and the safety factor of fatigue resistance.

The specified technical result is achieved by the fact that in the side frame, including the upper horizontal zone of the closed section with consoles forming axle openings, the lower belt of the closed section with the support platform for the spring set, two inclined zones connecting the upper and lower zones, vertical columns, technological windows , a central spring opening limited by a support platform for a spring set, an upper belt and vertical columns, radius transitions from a support platform to vertical columns, inner ribs on inclined belts adjacent to the radial transitions, protrusions in the area adjacent the inner ribs to the radius transitions, and outer ribs adjacent to the protrusions, the distance from the center of the radius transition to the vertical column is less than the radius, the inner ribs adjacent to the radius transitions are connected with technological windows tangential to their edging, and the axis of each protrusion coincides with the line of intersection of the inner edge with the cylindrical surface of the radius transition.

Two protruding ribs adjoin each protrusion, one of which is a continuation of the supporting platform, and the second is a continuation of the radius transition.

The distance from the center of the radius transition to the vertical column is 0.5 ... 0.8 of the radius.

Comparison of the proposed technical solution with the given analogues and prototype allowed us to establish the presence of distinctive features, therefore, this technical solution meets the criterion of "novelty."

The essence of the claimed utility model is illustrated by drawings, where

figure 1 shows a General view of the side frame,

figure 2 - a view of figure 1,

figure 3 is a section bB in figure 2,

figure 4 - remote element In figure 1,

figure 5 - remote element In figure 1, axonometric projection.

The side frame contains an upper horizontal belt 1 of closed section with consoles 2 forming box openings 3, a lower belt 4 of closed section with a support platform 5 for a spring set, two inclined belts 6 connecting the upper 1 and lower 4 belts, vertical columns 7, technological windows 8 and the central spring aperture 9. The spring aperture is bounded by the support platform 5, the upper horizontal belt 1 and the vertical columns 7. Radial transitions 10 are made from the support platform 5 to the vertical 7. The inner ribs 11 of the inclined belts 6 are adjacent to the radial transitions, while the ribs reach the technological windows 8 and are connected with them tangentially to their edging 12. Technological holes are made in the ribs 13. Closing the ribs 11 on the edging 12 of the technological windows contributes to a smooth stress dissipation in the radius transition zone.

In the zone of abutment of the inner ribs 11 to the radial transitions 10, protrusions 14 are made of cylindrical shape, to which the outer ribs 15, 16 are connected: the rib 15 is a continuation of the upper part of the radial transition 10, and the rib 16 is made as a continuation of the supporting platform 5. The axis 17 of each protrusion coincides with the line of intersection of the inner rib 11 with the cylindrical surface of the radius transition.

The cylindrical surface of the radius transition 10 is made of radius R, the center of which is located at a distance l from the vertical column 7, while the distance l is less than the radius and is 0.5 ... 0.8R.

The achieved technical result provides conditions for directional crystallization, eliminating shrinkage porosity, shells, friability and cracking. Due to the development of the inner ribs 11, the new orientation of the protrusions 14 and the change in the geometry of the radius transition, conditions have been created for increasing the strength of the side frame in the lower part of the spring opening, its reliability and the safety factor of fatigue resistance.

Theoretical studies of the claimed side frame showed that its safety factor for fatigue resistance is 2.4, which allows for a guaranteed and designated service life of a freight car.

An experimental batch of side frames is currently being manufactured using the proposed solution, which will be tested in accordance with established standards.

Claims (3)

1. The side frame of the freight car truck, comprising a closed upper horizontal belt with consoles forming axle openings, a closed closed lower belt with a support platform for the spring kit, two inclined belts connecting the upper and lower belts, vertical columns, technological windows, a central spring aperture limited by the support platform for the spring set, the upper belt and vertical columns, the radius transitions from the support platform to the vertical columns, the inner ribs on an inclined ах belts adjacent to the radial transitions, protrusions in the area adjacent to the inner ribs to the radial transitions, and outer ribs adjacent to the protrusions, characterized in that the distance from the center of the radius transition to the vertical column is less than the radius, inner ribs adjacent to the radius transitions, connected to the technological windows tangentially to their edging, and the axis of each protrusion coincides with the line of intersection of the inner edge with the cylindrical surface of the radius transition. 2. The side frame according to claim 1, characterized in that to each protrusion adjoin two outer ribs, one of which is a continuation of the supporting platform, the second is a continuation of the radius transition. 3. The side frame according to claim 1, characterized in that the distance from the center of the radius transition to the vertical column is 0.5 ... 0.8 of the radius.