SU739364A1 - Arrangement for compression tests of long objects - Google Patents

Description

(54) INSTALLATION FOR TESTING OF LONG-DIMENSIONAL SAMPLES FOR COMPRESSION

- one

The invention relates to the testing of materials, in particular to installations for testing long specimens in compression.

A known device for testing 5 long compression specimens comprising a frame, a device for compressing a test specimen, rotating grippers for fastening the sample and a device for rotating the grips 1. O

The disadvantage of the installation is the design complexity.

Also known is an installation for testing long compression specimens containing a frame, a support for 15 engagement with the end of the test specimen, a load-measuring device, a strain gauge, a device for compressing the sample, a power drive and a device for loading the sample by-20 transverse bending 2.

The known apparatus is closest to the invention in terms of its technical nature and the result achieved. 25

A disadvantage of the known installation is the design complexity and low accuracy of the tests.

The purpose of the invention is to simplify installation and improve the accuracy of testing, 30

The goal is achieved by the fact that the device for compression is made in the form of a hinged parallelogram, fixed on the frame;) The connecting rod connects one of its vein with a power drive, and the support is installed parallel to two opposite links of the parallelogram and hinged on the other two links x

In addition, the device for loading the sample with a transverse bend is made in the form of a lever consisting of two pivotally connected rods fixed at one end on the chain and a sleeve designed to surround the sample with protrusions to interact with the lever. The protrusions are selected from conditions provide a given bending moment.

FIG. 1 shows the proposed installation; in fig. .2 - device for loading the sample by transverse bending.

The installation includes a frame 1, made in the form of a support column, in the upper part of which, using a coupling 2, an articulated parallelogram 3 is installed, consisting of two longitudinal links 4 and 5, as well as two cross sections of links 6 and 7, forming a chute 8. and 9 A ha of 10 connects the verina 8 through a force-measuring device, for example a dynamometer 11, with a force-driven drive 12, and a support 13,. c, designed to interact with the end face of the test sample 14, set-. parallel to two opposite transverse links m b and 7 and hinged on Two longitudinal links - x 4 and 5. The other end of the sample 14 is based on an electric strain gauge meter 15. A vertex 9 of parallelogram 3 is connected by means of a hook 16 with a counterweight 17, uraenovashivayu14e ,, own weight parallelogram. The device for loading the sample 14 with a transverse bend is made in the form of a lever 18 consisting of two pivotally connected rods 19 and 20, which is fixed on the frame 1 s — by means of the coupling 20 21 through the shackles 22 mounted on the coupling 21. .

The rod 20 is connected to a sleeve 23 intended to enclose sample 14, having protrusions 24 and 25, 25 interacting with the rods 19 and 2b. The length of the rods 19 and 20, as well as the protrusions 24 and 25, is selected from the condition of providing a given bending moment. The end of the rod 19. is connected to jQ using a ti26 via a dynometer 27 with a loading lever 28 with replaceable weights 29. The test sample 14 is connected with: a strain gauge, for example, a deflector 30, a cable 31.; g

The installation works as follows. -; .

First, lift the parallelogram 3- to the required height and fix it on the base 1 with the aid of clutch 2. Test sample 14 worn on; it is installed at one end by sleeve 23 onto the electric strain gauge load carrier 15, which performs the function of the lower support, and connects the other end to support 13 installed in parallel 45 and balance the weight of the parallelogram with the counterweight 17. Then install a loading device at the required height

sharpened bending and locking jq

They are placed on the base 1 with the help of the coupling 21, and the sample is also connected with the cable 31 to one or several strain gauges, for example, the defibomers 30, the number of which is determined:; Via

power actuator 12 connected to vertex 8 of parallelogram 3, transmits a compressive force through sample 10 to a sample 14, the magnitude of which is measured by a dynamometer 11 or an electric strain gauge meter 15. Select the required value of interchangeable weights 29, set the bending moment of the bars 19 and 20, which interact with protrusions 24 and 25 of the sleeve, covering the test sample 14. The amount of deflection of sample 14 is determined by the indications and m of defibomer 30.

Claims (2)

Invention Formula . 1. Installation of Al tests of long-grit samples for compression, comprising a base, a support for interacting with the test sample, a load-measuring device, a strain gauge, a device for compressing the sample, a power drive and a device for loading the sample with a transverse bend, characterized in that in order to simplify installation and improve accuracy, testing, the compression device is made in the form of a hinged parallelogram attached to the frame, the connecting rod connecting one of its vertices to the power drive, and parallel to the two opposite links of the parallelogram and hinged to the other two links x. 2. Installation under item 1, about tl and h. A: y and a; I with. The fact that the device for loading the sample with a transverse bend is made in the form of a lever, with a hundred. The device consists of two pivotally connected rods fixed at one end to the bed and a sleeve designed to cover the sample on which the protrusions are made to interact with. lever, and the length of the protrusions is selected from the condition of providing a given bending moment. . Sources of information taken into account in the examination ; . 1. Author's certificate of the USSR .№ 78216, cl. G 1E1 N 3/04, 1948. 2. Testing machines. Armavir Plant Testing Machines, (free catalog). M., 1966, p. 49 (prototype).