SU1610317A1 - Torsion dynamometer - Google Patents

Abstract

This invention relates to force-measuring technique and is intended for use in torsion force meters. In order to improve the measurement accuracy and simplify the design, the pressure of the working fluid transfers the force to the lower plane of the plunger 3. A cavity 14 is made in it and the liquid flows through the calibrated holes 15 in the cavity 16. This creates between the inner cylindrical surface of the cylinders 1 and the outer surface of the plungers 3 hydrostatic effect. 1 hp ff, 3 ill.

Description

The invention relates to force-testing techniques and can be used in torsion force meters used in hydraulic testing machines and presses.

The purpose of the invention is to improve the measurement accuracy and simplify the design of the torsion meter.

FIG. 1 shows a testing machine with a torsion force meter, general view; Fig 2 - a pair of cylinder-plunger torsion load cell, section; in fig. 3 shows section A-A in FIG. 2

The torsion power meter includes a case of a block of force-measuring cylinders 1, cavity 2, plungers 3, pushers 4, ball bearings 5, lever 6, prisms 7, torsion 8, lever 9, rail 10, gear shaft 11, arrow 12, scale 13, in plungers 3, cavities 14 are made, calibrated bores 15 with equal hydraulic resistances and chambers (cavities) 16, which are made on a cylindrical one. 3. plunger surfaces and forming hydrostatic bearings.

The test machine contains an upper support plate 17, grippers 18 and 19, a plunger 20, a cargo slide 21, a hydraulic actuator 22, a main 23, a damper 24 consisting of a check valve 25 and an adjustable throttle 26, a spool 27 that switches ranges load measurement, and sample 28 The torsion force meter operates as follows. . Sample 28 is placed in grippers 18 and 19 and pressure is applied to the cavity of the cargo cylinder 21, as a result of which the working fluid through line 23, damper 24 and spool 27 enters cavity 2 of one of the measuring cylinders (depending on the range of measured forces) . The pressure in the cavity 2 acts on the plunger 3, which through the pusher 4 placed in the ball bearing 5, the prism 7 and the lever 6 transfers the force to the torsion 8, the end of which

rotated at a certain angle, driven by a drive 9 into motion a rail 10 connected to the gear shaft 11, on the axis of which arrow 12 is located. The working fluid from cavity 2, the passage through cavity 14 and the calibrated holes 15 made in the body of plunger 3 fill chambers (cavities) 16, creating the effect of hydrostatic lubrication between the inner surface of the working cylinder 1 and the outer surface of the plunger 3. To reduce the effect of distortions in the plane in which the center of symmetry of the cross section of the chambers lies, the center of rotation is cal pair plunger 3 - pusher 4 ,.

Claims (2)

1.Torsion force meter for hydraulic testing machines and presses, inserts, at least one load cylinder, in the cavity of which a plunger is placed, connected by means of a pivot bearing and pusher with a torsion and force measuring scale, which is different in order to increase the accuracy of and simplify the design, the load cylinder and the plunger are coupled to each other by means of an introduced hydrostatic support with the number of chambers ri + 1, where n 1,2,3, ..., and in the plane in which the center of symmetry of the cross section of each of the chambers lies the center is located is rotated kinematic pair plunzher- pusher. 2. The load cell according to Claim 1, which is based on the fact that the hydrostatic support is formed by the inner side surface of the load-measuring cylinder and the chambers made on the cylindrical surface of the plunger, the chambers having equal hydraulic resistance , connected to the inner cylindrical cavity at the end of the plunger. 22 eleven P 27 2 26 Phie.1 / I -a FIG. 2