SU838434A1 - Dynamometer - Google Patents

Description

one

This invention relates to load measuring technique.

Known dynamometer, in which the transmitting element is located on the base plate on prismatic supports (1.

The disadvantage of this dynamometer is that it does not allow measuring loads in a wide range.

The closest technical solution to the proposed is a dynamometer, comprising a housing with a base, a flexible element mounted on two cylindrical supports, a measuring lever associated with the middle of the flexible element, a lever movement indicator mounted on the housing, and a mechanism for moving cylindrical supports 2.

The disadvantage of this dynamometer is not a sufficiently wide measuring range.

The purpose of the invention is to expand the measurement range.

This goal is achieved by the fact that in the dynamometer the base is made in the form of a disk with a diametrical groove, the mechanism for moving the supports in the form of a swivel washer with radial grooves and two pressure plates, and the cylindrical supports in the form of U-shaped brackets with bent off leashes placed in grooves swivel washer, with cylindrical bearings are located in. the diametral groove of the base, and the flexible element is connected with it with the help of centering pins.

FIG. 1 shows the device, a general view; in fig. 2 shows section A-A in FIG. one.

The dynamometer includes body 1, base 2, cylindrical bearings

5 3, flexible element 4, centered relative to the axis of symmetry of the bases. Pins 5, swivel washer 6 with radial grooves 7 and 8, clamping strips 9 with screws 10, measuring lever 11, hingedly mated to a flexible element, a dial-type indicator installed in housing and 3aKpemieHHHjt in it with a screw 12.

Cylindrical supports are made

5 of the rod and have a U-shape. The supports are located in the diametral groove 13 of the base 2. The sides of the supports serve as guides and ensure the movement of the supports along 0 of the groove 13 without distortions. One of

:: Shys-34J3H; oui, Hx, tsai supports has a rim 14, associated with a swivel washer b,

On the flexible element, a rotary washer b, B in the center of the flexible element is mounted in the ring-mounted pin 15 of the base. A slider 16 is hinged, the hinge is coupled to the measuring lever 11, in the lower part of which is a locking mechanism, including a turning ring 17 and locking screws 18 as well as sleeve 19

An indicator of the hour type is installed into the case of the dynamometer up to the stop of its legs in the slider 16 with the prescribed tension and secured. The indicator in the case is screwed 12: The zero division of the indicator scale is shifted opposite to its arrow. The reference weight is suspended on the dynamometer using a locking mechanism. Under the action of the load, the grip mechanism, the measuring lever 11 and its slider 16 move downwards, and the deflection is a flexible element. The amount of deformation of the membrane is fixed according to the indicator reading. When the washer is rotated, the side surfaces of its radial grooves are pressured onto the legs of the supports .3, symmetrically shifting or moving them apart. As the indicator hand only takes the required position, the washers 6 are turned off and the screws 10 are tightened and the bars 3 are pressed against the retaining washer b and fixed against the base. After this adjustment, the dynamometer is ready for use.,

When measuring the forces on the levers, the rotary ring 17 of the dynamometer is put directly on the lever. In this case, the rotary ring 17 rotates 90 relative to the position (shown in the figure. When measuring the force on the lever, the body is moved by hand in the direction from the rotary ring 17 to the slide 16. In this case, the load is successively transmitted from the housing 1 to the base 2, cylindrical supports. 3, flexural strength 4, slider 16, measuring arm 11, swivel ring 17 o. The force of resistance of the lever to displacement is transmitted through the rotary ring 1 7 to the measuring arm 11, the slider 16 and the flexible element 4 which bends under the action of the load on the lever by an amount proportional to the resistance of the lever to movement. The deflection of the flexible element is accompanied by a corresponding movement. The slide 16 along the axis is detected by means of a dial indicator or other similar device whose readings are converted to units of force or mass.

When measuring the mass of sediment in the rotor, a centrifugal dynamometer is mounted on the rotor axis with a sleeve 19 screwed into the base 2, so that the rotary ring 17 with screws-18 is located opposite the clamp

  rotor nuts. Screw the screws 18 all the way into the rotor cage nut, fix the rotor relative to the dynamometer. Then smoothly turn the sleeve 19 out of the base 2. The sleeve

5 19, resting against the stop on the rotor axis, during rotation causes the dynamometer housing to rise and transfer the force to the flexible element in the same way as in the case of force measurement on the levers.

In the process of deformation of a flexible element, its ends are raised relative to the axis of the pins 5, ensuring a constant predetermined position of the flexible element relative to the axes

symmetry of the dynamometer.

Claims (1)

 1. USSR author's certificate No. 393962, cl. G01L 1 / a2.15. About.70. 2, USSR Author's Certificate No. 34.4297, cl. Q 01/1/04,29.08.66 (prototype). Aa THAT eleven