SU651222A1 - Haritonov's method of creating force and standard force-measuring machine for effecting same - Google Patents

Description

TJipiipycMOro linamest installation) and stretching is provided between the base of the bed and the movable head plate 4, where the grapples are located.

Silon1ruzhak) The unit is produced in the form of two systems, formed by hydraulic cylinder 6 with two 11or1nn - ring 7 and cidindric 8. Worker is plowed by g-Idrotsilmndry 6 and ring BibiM piston 7, is connected hydraulically with a source of hydrostatic pressure 9. This force-excitation system forms an autonomous energizer and is designed to directly apply force to a calibrated dynamometer 5. The second energizer, designed to apply a force to a calibrated dynamometer 5 through an exemplary 10, is formed idrotsilindrom 6 and the cylindrical piston 8 and fluidly coupled to a source of hydrostatic pressure I1.

If the tested dynamometer 5 has a nominal load, not exceeding the nominal load of the exemplary dynamometer 10, its taring or verification is performed by the usual method on the reference points of the exemplary dynamometer.

The accuracy of the calibration in this case is determined by the accuracy of the dynamometer 10. The loading is carried out with the help of a system configured to transfer the force to the calibrated dynamometer through the model, i.e., the application of loads to the hydrostatic pressure source 11.

In the case of calibrating a dynamometer with a nominal load equalizing the load of the exemplary dynamometer 10, the force on the main is created as follows.

A model dynamometer 10 is placed inside the annular piston 7 on the hydraulic actuator 6 of the energizer. A calibrated dynamometer 5 is coaxial with the model on the mobile yoke 4. The force of the hydrostatic pressure 1I using an arbitrary load creates a force acting through the model dynamometer 10 on the dynamometer 5. This shows m of the dynamo meter 10 by its reference points measure the force, which is also applied to the calibrated dynamometer 5. When the specified force is reached, the loading is stopped and the force is left unchanged. nym. Then using the source 9 to create pressure under the annular piston 7, also using arbitrary weights. When this occurs, the force acting on the calibrated dynamometer 5 is replaced through samples 1) ~ 10, which is then unloaded. The replacement is made on the reference points of the reverse stroke of the model dynamometer 10.

Thus, the force exerted on the calibrated dynamometer 5 through the model I) is transferred to the autonomic strength force with a force corresponding to

Accuracy of the obra.pyuvslch) dynamometer with ucheyum sensitivity silononezbuzhak tsey ss-topic. Retain unchanged ycn.ine, dejk-vuyuije TOJIIJKO on the ground dynamometer (D), again, according to the repetition point on the aztec dynamometer (K), create a force with nom () and force-induced 11. II. 1ri: 1g add

|) UZY to already 11MeYuN1, NAME. ruj

the reference points of the reverse x (Jd dynam (Jmcgra 10 produces replacement of the thrust of the charge force by the exciter 9).

At the same time (j6ui, ee dummy, deistnuk) Ieee to the calibrated dynamometer 5, equal to sum.ma |) but the readings of dynamometer 10 in the direct course of loading. The accuracy of the creation and substitution of efforts is measured on the dynamometer I). The relative error of the total force, acting on the calibrated dynamometer 5 practically corresponds to the accuracy of the exemplary dynamometer 10. The creation or increase of the dynamometer 5, as well as its replacement, can be carried out as 11 times as much as the reference dynamometer K) reference points within the scale.

Thus, a successive number of loads were performed by the system using a system, where the force of force on the calibrated dynamometer 5 is exemplary, and the loadings of the exemplary dynamometer 10 s nomoni) of the autonomous force generator or of the system transmitting the force Fia verifiable dynamometer 5 directly provide verification or taring of the dynamometer 5 with the required accuracy, since the relative linearity during the reproduction of large loads does not depend on the number of loading operations and is unloaded.

Similarly, the machine works when calibrating dynamometers for stretching.

Claims (2)

1. A method of creating effort, consisting in loading a force dynamometer with a standard dynamometer, characterized in that, with the aim of expanding the range of forces created while maintaining accuracy, it installs a torque dynamometer consistently with a model, apply a single tare force equal to, for example , 1/10 of the force created, to the calibrated dynamometer through the model one, memorize it and summarize with each subsequent application of a single calibrated force until reaching predetermined force. 2. ° The image of a yuva force-measuring machine for the implementation of the method according to claim 1, comprising a frame with a fixed beam, on which a moving frame with a fixed and moving beam, is mounted, grippers for installing dynamometers and a force-generating device in the form of a hydraulic cylinder with a piston, configured to transfer force on a calibrated Th;;) NW is exemplary, it is characterized by the fact that it has an autonomous energizer, made in the form of a hydraulic cylinder with an annular piston in contact with an unmovable crosshead frame, and the working volume formed by the hydraulic cylinder and the annular piston. connected to a hydrostatic pressure source, and the force-boosting device is connected to the hydraulic cylinder of an autonomous force-driver. Sources of information taken into account in the examination 1.Debuam R.S., Large forse for industrv Physics Bulletin, 1972, vol. 23, may, p. 285286. 2. Certificate of author No. 236085, cl. 42 K 35, 1966. .-.