SU71242A1 - Apparatus for mechanical testing of metals - Google Patents

Description

Instruments for mechanical testing of materials usually use the installation of load levers on rigid onors in the form of ishrikopodshipnikse or prisms.

The production of such irpborov is laborious and requires highly skilled workers in their assembly and calibration. In particular, in the manufacture of prisms and pillows, it is difficult to obtain an ideal straight prism blade and a straight plane of the pillow. In the process of assembling the device, the inaccuracy of prisms of prisms to the pillows increases due to the installation of a cushion of prisms in the frame and the prisms themselves in the levers. The inaccuracy of the manufacture and assembly of prisms leads to the fact that the prism rests on the bottom of the pipe; nebol) in sections, and the ego, in turn, leads to an image of the sensitivity of the device.

Devices, work) In thermal workshops, where dusted dust falls on prisms, it is quickly worn out, since it is almost impossible to protect prisms from dust.

To simplify and reduce the cost of manufacturing such devices and increase their service life, it is proposed to mount the load levers not on rigid supports, but on flexible metal tapes of thickness 0, L-0.2 mm.

FIG. 1 schematically shows a tool for testing Rockwell hardness with a belt suspension; in fig. 2 device tnna Vnkkersa press; in fig. 3-device type press Briebell; in fig. 4-embodiment of the device with reference to the case for breaking tests.

The proposed device for testing metals on Rockwell hardness (Phn. 1) is structurally designed as follows.

The cast iron bed frame 17 is the main part of the device onto which all components and assemblies are mounted. The load on the alumina cone creates a lever; Ж1к; | S11stema, in which the power lever / iodveHJCH to stan1-: but 17 on a flexible metal lenga 2, nrkroplennoy to the bed and ryucha.gu special clamp /) and 4. The spindle f is connected to p1) 1 pitch At the metal tape 7,) warmed one end . m to the spindle clamp n 8 d) ug end) m to the lever / clamp r 5. At the second end of the lever

431

1, the weights 16 are suspended on the suspension 15 with the aid of the earrings 14 and the axis 13. In order to obtain small loads and balance on the lever 1 there is a load 12.

Measuring the depth of indentation of the diamond cone into the material under test is done using an indicator // watch tip and lever 5. Lever 5 is suspended from one end to the frame by 1 ibcon metal smsgge 0. and the other end) of the lever has a plug for connecting with the indicator //. The connection of the spindle 6 with the lever 9 is propelled by the cone of the spindle entering the conical hole.

Another variant of the proposed device is a universal Vickers type pressure tool (. 2) - a non-versatile device for testing t-verdostap metals by the Rickwell method, B: iKi epca and Brpnell at low loads.

The main part of the iribor is a cast-iron plug-in 18, on which all units and parts are mounted. The load is created by the lever system. The power lever / .. is iodine to the frame 18 and the flexible metal tape 20, attached to the frame 18 and the lever} 19 with special clips 21 and 22, the spindle 23 connected with the lever m. 19 with a metal flexible tape 24 attached by one horse to the the spindle with the clamp 25 and the other end to the lever 19 by the clamp 26, at the second end of the lever J9 the loads 27 are suspended. The lowering of the lever 19 is performed by the lever 28, attached by means of the clamp 29 and the metal flexible tape -30 to the ring. .che 23, and with a metal-taped and special clamp. E 33 and 34 to the frame 18. For small iolucheni .chagruzok and uraBio1zepl WAPI rychaG01z on the lever 28 there iodvpzhnay load 33.

The third option (Fig. 3) of the proposed device is considered to be for the tested hardness of 1 metal according to the Briepel method. Prnbor cocTOirr from lit1 pig iron stannens 31, which is the main part

432

the device and on which all components and parts of the device are mounted.

The load on the steel njapHK is created by a lever system consisting of two levers 36 and 37. The power lever 36 is suspended from the frame 38 on a flexible metal band 39, and is attached to the frame of the lever by special clamps 40 and 41; the spindle 42 is connected to the lever 36 by a metal tape 43, fastened I10 by one end to and I11. A clip 44 and another end to the lever 36 by clip 45. The second lever 37 is suspended from the frame on a flexible metal tape 46, attached to the frame and the lever by special clips 47 and 48. The lever 36 is connected to the lever 37 with a metal tape 49 attached to the levers with special clamps 50 and 51. To hold the metal tape 43, it is always in the tensioned condition of the strap 42 spring-loaded with a coil spring 52. On the second arm of the lever 7 ia pendant 53 irie relief earrings 54 axis 55 nodvesheiy loads 56.

FIG. 4 give the fourth version of the design of the device in relation to the case for testing the gap.

The measured, acting on the test. My sample, produced by DITS5, is a system consisting of a lever 57 of the second kind of an 58 rod. The lever 57 is attached to the BepxHeii part 59 of the base with metal clamps 61 and 62. The upper hook 63 is connected to the lever 57 metal flexible tape 64, prick |) blind special clamps 65 p 66. Lever 57 connects to the rod 67 of the tandem 58 syienalpa ser1; goy 68 by means of metallic leptas 69 and 70 and special clamps 71 and 72. The rod 67 of the needle 58 and i kr () ipJtyyny 73 on a metal flexible band 74 attached with clamps 75 and 76. To give a certain bend radius to a tape 74 when the antenna is deflected and 58 is held, clamp 76 is knotted protrusion with curved surface. At the bottom of the rod 67 and one suspension weight 55, a rod 77 is attached to the upper part of the rod 67 for the balancing weight 78.

Subject invention

Claims (4)

1. An instrument for mechanical testing of metals for hardness, tearing or compression, in which a system of articulated coupled levers is used to transfer forces to a test sample, of which the main load lever, used for suspending loads, is made in the form of a rocker arm movably mounted on two supports; one of them is an elastic element fixed on the base of the device, and the other is a second lever connected to a device that transmits force aa to a test specimen, characterized in that as a second support for linking the load lever to the device transmitting force, applied takige elastic belt suspension. 2. The form of the instrument according to claim 1 for testing the hardness of a Vickers type of metal, characterized in that it is designed to create preliminary small loads on the diamond tip of the instrument and equipped with a movable load an additional lever 28 is suspended from the base of the instrument on a flexible tape 52 and st zan the second flexible tape 8Q through the spindle 23 with the main cargo lever 19. 3. The form of the apparatus according to claim 1 for testing the hardness of the tine of the Brinell press, characterized in that the intermediate lever 57, designed for suspending loads, is associated with the main load lever 36 and with the elastic strap 49 and 46. 4. The form of the device according to claim 1, applied to a tensile testing machine with a lever force meter, characterized in that the load lever is connected by means of flexible bands 59 and 70 fixed on the intermediate link 65 with the rod 67 a tamper 58 suspended also on a flexible tape 74 by means of a clamp 76 fastened to the device body, provided with a protrusion with a curved surface for imparting a certain bend radius of the tape 74 when the tiller 5S deviates. 28 Code, Issue 4, 1S49 g. 33 3 38 38 38 i, 8 -I f: p, 1-55 62 tl242 7s 7i 73