SU150289A1 - Automatic hardness tester for testing polymeric materials - Google Patents

Description

Automatic hardness testers for testing polymeric materials are known, made in the form of a bed and mounted on it a mechanical drive and a lifting table, above which strain and force sensors associated with a force-measuring spring are placed. However, such hardness testers are not universal enough.

In the described hardness tester to determine the load for various materials when the indicator is immersed to a predetermined depth at a specified time, the strain gauge sensor is made in the form of a clock-type spring indicator fixed on a special panel together with an electric sensor controlling the force-measuring spring and the limit switch lifting table.

FIG. 1 shows a diagram of the hardness tester; in fig. 2 is a diagram of a device for programming the operation of a hardness tester.

The universal hardness tester for testing -polymeric materials consists of a base /, a lifting table 2, 5 and 4 strain sensors and forces, a load spring 5, a reduction gear 6, transmitting rotational movement from the electric motor 7 to the VIntov 8 lifting mechanism of the table 2, 9 loading mechanism, time relay 10, mechanism // for transferring load readings, mechanism 12 for unloading the sample and control panel 13 for control.

The device is turned on by pressing the start button, after which the electric motor 7 begins to work, and table 2 with the sample placed on it, 1 to be tested, rises until the sample touches tip 14, mounted on a spring 5. At this moment, the iris is balancing 15 and 16

No. 150289- 2 sensors 3 and 17. Pressing the buttons, by means of which the duration of the loading-disarming cycle is set, turns on the electric motor 18 of the mechanism 9, which, through electromagnetic clutches 19 or 20 and gears 21 or 22, drives a helical gear 23, . The linearly displaced plunger 16 of sensor 17. At the same time, the electric motor 7 tends to bring the plunger 15 of the sensor t into position, the synchronous position of the plunger 16, thereby loading the test specimen into which it is immersed. nechnik 14. At the end of the plunger stroke motors 16 are stopped and 7/8, and the motor 24, the relay 10 starts time. The time the cam 25 rotates from one circuit to switch 26 to another determines the duration of the sample under load. If at this time there is a drop in load, then as a result of changing the position of the plunger 27 of the sensor 4, the motor 28 of the mechanism //, which moves the plunger 29 of the sensor 30 synchronously with the movement of the plunger 27, loads the sample so that the position of the plungers 27 and 29 remains the same. At the end of the holding time, the electric motor | -a- tor 2- turns off and the electric motor 31 of the mechanism 12 is turned on. The electric motor 31 through electromagnetic clutches 32 or 33, gears 34 or 35 rotates the cam 36 interacting with the roller 37 of the caliper 38 carrying the sensor 30. At the same time the plunger 29 moves along the inclined plane 39 of the pivot arm 40, which leads to unloading the test sample at a time when the plunger 29 faces the prism 41. To remove the table 2 with the sample from the tip 14, the electric motor 7 turns on but in the opposite direction. A visual observation of the magnitude of the deformations and forces is made by means of spring indicators 42 and 43 of the hourly type, which interact with sensors 3 and 4. The limits of movement of the lifting table 2 are limited by limit switches 44 and 45.

The described hardness tester allows to simplify the test procedure, reduce the scatter of results and increase their reliability due to the regulation of the tip immersion speed to a predetermined depth, which eliminates errors due to the friction of the material on the tip.

Subject invention

An automatic hardness tester for testing polymeric materials, made in the form of a bed and slyuptnirovannyh on a mechanical drive and a lifting table, above which are placed the strain and force sensors associated with the force-measuring spring, characterized in that, in order to determine the load for various materials during immersion indicator at a specified time to a predetermined depth, the strain gauge sensor is made in the form of a spring-type indicator of the hour-type, mounted on a special lanel together with an electric sensor com, regulating through the force measuring spring in contact with it and the limit switch. the amount of movement of the lifting table.