SU1355893A2 - Bed for testing interaction of wheel with rail - Google Patents

Abstract

FIELD: rail transport. The purpose of the invention is to expand the functionality. The bench contains 1 U-shaped frame 2 mounted on the base, fixed in vertical and horizontal positions on axes 3. Cylinders 6 are fixed on U-shaped frame 2 coaxially with rail sections 5 to load test objects. 9 il. / CO co-eaten 00 co so mh fi.1

Description

The invention relates to rail vehicles, in particular, to the construction of equipment for studying the dynamics and stability of movement of rail mine carriages.

The purpose of the invention is to expand the functionality of the stand.

FIG. 1 shows a stand with

U-shaped frame in a fixed top- 10 section 5 of the rail one end of the flexible

ticking position; in fig. 2 is a view A of FIG. one; in fig. 3 shows the node I in FIG. 2; in fig. 4 - a stand with a U-shaped frame in a fixed horizontal position; in fig. 5 is a view B in FIG. four; in fig. 6 is a section b-B in FIG. five; in fig. 7 - stand with cylinders of axial forces; FIG. 8 is a view of FIG. 7; in fig. 9 is a section DD in FIG. 7

The stand for studying the interaction of the wheel and the rail includes a base 1 with an U-shaped frame 2 installed on it, fixed in vertical (Fig. 2) and horizontal (Fig. 4) polosseniye axes 3, while coaxially with tracks 4 of the arc-shaped sections. 5 rail endless way fixed cylinder 6, the stem of which is provided with a yoke 7 with a roller 8 (Fig 2) and flexible plates 9 (Fig. 6), interacting with the track 4 of the arc-shaped rail sections 5, the base of which is in contact with the tops of the force-measuring elements 10 vertical ( Fig. 3) and horizontal forces (Fig. 6), the end of the flexible plates 9 being pressed to the track by means of fastening 11, and the cylinder rod b of axial forces is provided with a tip 12 with a developed contact surface with the flange of the wheel 13 and the rail head and mounted on the pin x 14 of the base 15 fixed on the base 1 of the stand, while the load-bearing elements 10 are connected by one end of the output shaft of the endless rail to the current collector 16, from which signals are fed to the oscilloscope, and the other end to the drive 17 of rotation of the arcuate rail sections.

To measure the normal forces (Figs. 1 and 2), the drum with the rail-shaped arcuate sections 5 when rotated from the actuator .17 brakes when the axes of rotation of the roller 8 of the loading cylinder 6 coincide with the load cells

10, I perceive (their life force (see FIG. 3) with a rail.

When measuring the tangential forces (Figs. A and -5), the frame 2 rotates around one of the axes 3 to the right or left side up to j nopa into the walls of the body in a fixed horizontal position, while tangentially to the arc

The plate 9 is pressed to the track of the arc-shaped rail sections by means of the slanted means 11, and the other end of the flexible plate 9 is attached to the uiTOKy of the cylinder 6. The load applied to the plate is transmitted by a force-measuring element (Fig. 6) of the tangential forces.

When measuring axial forces (Fig. B and 7), acting on them on either side of track 4 of the endless path, loading cylinder 6 is first mounted on pin 14 inside the endless track gauge with the possibility of 180 ° rotation (Fig. 8 ).

At the moment of coincidence of the axes of the tip 12 of the rod of the cylinder 6 with the point of contact of the force-measuring elements 10 (Fig. 9), which receive the axial load, the drum of the infinite path slows down,

Forces perceived by force-measuring elements cause deformation of tension or compression in strain gauges, which

change their electrical resistance. This changes the parameters of the current in the circuit, registering the ordinates of the recording on the oscilloscope. The force developed by the cylinders 6 is preliminarily measured, for example, by the indicator of the DS-1 or DS-3 model dynamometer. On the ordinates records on the oscilloscope and magnitude; The loads developed by the cylinders 6 determine the recording scale of all force-measuring elements mounted in the stand.

Claims (1)

The invention The stand for testing wheel and rail operations on the autor. No. 851151, characterized in that, in order to expand its functionality, it is provided with a U-shaped frame fixed on the base by means of hinges with the possibility of rotation in a longitudinal vertical plane around each of them, and the hinges are located on both sides from the vertical axis of symmetry of the power cylinders to mount the stand on them, and the carrier located in. rollers or flexible plates, in one plane with infinite paths, acting with endless paths. In id fie.Z (rig 2 jieL Vid Sopof emf A ME fSI / roffayof a rs  . FIG. 6 14 i 7 7 : -iS4 / j / A te II L / X 7 VidG