SU800718A1 - Dynamometer - Google Patents

Description

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The invention relates to load-measuring equipment and can be used in instrument making for research.

A dynamometer containing a device is known, for fixing the needle at the required time (in which, for determining the pressure force of the electrical contacts at the moment of their rupture, the fixing device is equipped with an electromagnetic actuator 1.

However, the device does not provide the required accuracy.

The closest in technical essence to the present invention relates to a dynamometer, comprising a housing in which a silo-loading mechanism is located, made in the form of an electric motor, on the axis of which is fixed a worm to, kinematically connected with a worm gear mounted on the shaft of a screw pair, and force transducer, associated with a storage device connected to the readout device 2J.

A disadvantage of the known dynamometer is the low accuracy of the force measurement.

The purpose of the invention is to improve the accuracy of measurement of forces.

This goal is achieved sa due to the fact that a double-arm lever and a wedge element in contact with one of the arms of the double-arm lever, on the other arm of which the force converter is attached, are inserted into the dynamometer, and the screw of the screw pair is made in the form of a fork, with adjusting screws and the wedge element is loosely installed in the plug.

FIG. 1 shows a dynamometer; in fig. 2 - connection of the dynamometer with the test object.

In the case 1 of the dynamometer, there is a force-loading mechanism 2, made in the form of an electric motor 3, on the ICS

4Which is fixed to 5. Worm to

5 kinematically connected with a worm gear 6 mounted on the hall 7 of a screw pair 8, the nut of which is designed as a fork 9 with adjusting screws 10. A fork 9 is installed in a groove 11 of the guide 12 of a wedge element 13 in contact with one of the shoulders of the two shoulders 14 hinged on the housing with flat springs g1 mi 15.

Kpiiovy element 13 ustgshovlen, with a small gap between the adjusting screws 10 BibtKH 9.

On the other shoulder of the two shoulders lever 14, the force transducer 16 is fixed, which is connected to the memory device 17 by means of electrical signals. The storage device 17 is electrically connected to the reading device 18, the Dynamometer is fixed rigidly on the rack 19.

The device works in the following way.

By micro-feeding of the rack 19, the tip of the transducer 16 is applied to the test piece 20 with a clearance gap. The electrodes are switched on a gatel 3. The rotation from the axis 4 of the electric motor is transmitted through the worm to 5 and the worm gear b is transmitted to the shaft 7. The fork 9 mounted on the shaft 7 receives forward overrun in the groove

11. After the small gap between the wedge element and one of the adjusting screws 10 is selected, the wedge element 13 begins to move along the guide l5. At the same time, one double-arm lever plate 40 is in contact with the wedge surface of the wedge element 13. The double-arm lever 14 rotates around the axis formed by the FLAIL1 springs 15. The transducer 16 of the force converter 16 attached to the other arm receives progressive translation with minimum speed in the direction of the item to be tested 20 .

Upon reaching the tip of the transducer 16 force with the product 20, an electrical signal from the transducer 16 force,; proportional to the ascending force enters the memory device 17, which, if there is an inflection in the characteristic. remembers the maximum signal value corresponding to the force of the monitored node, the signal from the memory device enters the reading device.

Claims (1)

1. USSR author's certificate i 149604, cl. G 01 L 1/04, 14.02.62. 2 USSR author's certificate 606116, cl. G 01 L 1/04, 04/25/78 (prototype). ; v-vvvvvxvvv XvsxvX; ijjrrtf. m goog / X // uUHH / OU /// U U7DL  Жл.U.; vvVvtVt h i y tl 7 (ft J tfpa