SU879374A1 - Clamp for tensile testing - Google Patents

Description

(54) CAPTURE FOR STRETCHING TESTS

one

The invention relates to mechanical tests, namely to tensile test grippers.

A clamping device for specimen tensing is known, comprising a housing and two pairs of wedges accommodated therein for securing sample 1

A disadvantage of the prior art is the need for a large force in the process of pre-clamping a sample. In doing so, an axial load is transmitted to the specimen, which affects the accuracy of determining its mechanical characteristics.

The closest to the technical essence of the invention is a tensile test grip, comprising a housing with a threaded protrusion, an internal pair of wedges for clamping a specimen housed in the housing, a guide rod and an external-thread flange 2 mounted on it.

A disadvantage of the known grip is the comparatively low productivity during testing — installation, clamping and release of the destroyed specimen, since the time required for carrying out the above operations is proportional to the amount of axial movement of the wedges, whose slope is short, because the reliability of the specimen clamping depends on it.

The aim of the invention in f ect is to increase the productivity of the tests.

The goal is achieved by the fact that the grip is equipped with an outer pair of wedges connected with the body by springs, a slope

The 10 wedges of the outer pair are oppositely directed to the slope of the wedges of the inner pair, and on the surface of the stem and the flange surface in contact with it there is a thread opposite to

15 external.

FIG. 1 depicts the proposed gripper; in fig. 2 is a view along arrow A of FIG. one.

The grip includes a housing 1 with a zak20 repleni in it with a threaded protrusion 2, outer 3 and internal 4 wedges arranged in a housing for clamping a test specimen (not shown), a guide rod 5 and a flange b mounted on it 25 with external (right) thread 7 and in contact with the rod 5 thread 8 opposite external (left). External, wedge 3 preloaded by the springs 9 to the support surface 10 30 of the housing 1. The springs 9 act on

wedge 3 through screws 11 and 12, some of which are screwed into body 1, and others - into wedge 3.

At one end of the stem 5 there is a hole 13 for connection to a machine (not shown), and on the other end there is a sleeve 14 with a protrusion 15, interlocking (with an impeller of the grooves 16 of the inner wedges 4. The wedges 17 fix the wedge 3 and 4 in the housing 1.

In order to provide transverse movement, the inner wedges 4 have pins 18 / included in the grooves 19, which are made in the slats 17.

Handles 20 are screwed into the flange 6, a key 21 is fixed in the rod 5 to prevent it from turning relative to the housing 1.

The grip operates as follows. By rotating the knobs 20, the body moves progressively relative to the flange 6. Simultaneously with the flange b, the body moves relative to the guide rod 5 at the same speed and in the same direction Lenin, i.e. two times faster. When the specimen is clamped, the outer wedges 3 in the housing 1 are fixed and move with it until the working surfaces start contacting the specimen along the transversely moving wedges 4. After the start of the contact, the outer wedges 3 stop and form as if a whole.

The size of the transverse movement of the inner wedges 4 is proportional on the one hand, to the axial movement of the housing 1 relative to the rod 5 and, on the other hand, depends on the angle of the internal wedge (the greater the wedge angle, the greater the value of its transverse movement with the same value of the axial movement of the housing 1 relative to the rod 5).

in the capture design, the implementation of the above two conditions allows a significant increase in test performance. .

In addition, clamping the sample and self-engaging it during the test, carried out at a smaller wedging angle formed by the side surfaces of the housing 1, reduces the amount of force applied to the handle 20 of the flange 6.

The relatively large size of the internal wedge assembly 4 eliminates the possibility of the specimen being seized after resolution, which requires a small force to release it from the gripper. This also influences the increase in test performance.

Claims (2)

1. The patent of Switzerland No. 204897, cl. 62, G938. 2. US patent 3224259, cl. 73-103, 1962 (prototype). rj fff fS fff W