SU371463A1 - STAND FOR MEASUREMENT OF AXIAL FORCES - Google Patents

Description

The invention relates to the field of measurement technology, in particular, to stands for measuring the axial force acting on the shell during its rotation on roller bearings.

There are stands for measuring the axial force acting on the shell, containing a frame and a drive roller mounted thereon, non-driven rollers with bearing pads and a measuring unit. However, the known stands have insufficient accuracy in measuring the axial force due to the fact that when the non-driving rollers rotate around a vertical axis that coincides with their axis of symmetry, the distance between the points of contact of the shell with the rollers changes, and the axial force acting on the shell depends on this distance.

In the proposed stand, the supporting platform is made rotatable in a horizontal plane around a vertical axis passing through the point of contact of the shell with a non-driven roller.

FIG. 1 shows a general view of the stand; in fig. 2 is a top view of FIG. one; “And FIG. 3 is a view, but the arrow L in FIG. 2

The bench for measuring the axial force acting on the shell during its rotation on the roller supports contains frame 1 and drive 2 installed on it and non-driven 3 rollers. Drive 4 is connected to the drive roller. Rollers 3 have support platforms 5 with axles 6.

Sites 5 are turning; in the horizontal plane around a vertical axis passing through the point of contact B of the shell 7 with roller 3.

The bearing pads are provided with grooves S, which allow turning the "x" together with the rollers 3 in a horizontal plane and fixing it in a certain position with screws 9. A measuring unit is fastened to the frame, consisting of a supporting rolling pin JO, carrying a mobile arm 7 /, a dream sliding bogus rolling pin 12 with a scale of 13 and a shell position gauge 14. On the arm K, a pointer 15 is set and rotating

a support 16 for fastening one end of the calibrated-spring 17. The other end of this spring is fixed in the rotating support IS mounted on the end of the shell 7. The rotating supports 16 and 18 are aligned so that the axis

springs, / 7 coincides with the axis of the shell 7. On the support 18 there is applied risk 19, which is the indicator of the position of the shell.

The stand works as follows. By rotating the platform 5 around the axis 6, the required angle between the axis of the shell 7 and the axis of rotation of the rollers 3 is set. The supporting platform is fixed in the desired position with screws 9, then by moving the arm 11 along the rolling pin JO a pretension is applied to the spring 17, after which the drive 4 is turned on. -ka 7, rotating, begins to move in the axial direction, deforming the spring 17. After the "axial force acting on the shell will be balanced by the stretched spring 77, the axial movement of the shell will stop," the shell will take quite definite Noah position.

The axial force acting at a predetermined angle between the axis of the shell and the axis of rotation of the non-driving rollers is determined by pulling out the rolling pin 12 to align the marker of the position of the shell 14 with the risk 19 (shell position indicator). The magnitude of the axial force is determined by the reading of the reference indicator on the scale 13.

Subject invention

A bench for measuring the axial force acting on the shell during rotation and it on the roller supports, containing the frame and the drive roller mounted on it, non-driven rollers with bearing pads and measuring unit, characterized in that, in order to improve the accuracy of measuring the axial force, the support pad It is made of a horizontal plane turning around a vertical axis passing through the point of contact of the shell with a non-driven roller.

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