SU842465A1 - Wedge clamp - Google Patents

Description

The invention relates to mechanical testing of materials, and specifically to wedge grippers of machines for testing samples for tension-compression.

. Known clamping device comprising a housing and wedge jaws and clamping screws 1 housed therein.

The disadvantage of the device is the impossibility of precisely centering the sample with respect to the loading axis, since the wedge sponges are unevenly moved relative to each other from the action of the clamping vings and, in addition, the specimen under compression is subjected to compression along the axis.

The closest in technical essence and the achieved result to the proposed invention is a gripper for testing tensile-compression specimens, comprising a housing, wedge sponges and a double-acting hydraulic cylinder, on the ends of the rod of which there is a spherical support for centering the sponges 2.

The disadvantage of this device lies in the unreliability of the centering of the sample and its limitations, since the sponges in it are strictly fixed.

position in relation to the hydraulic cylinder rod and the entire machine.

The purpose of the invention is to increase the reliability of fastening the tested samples.

The goal is achieved by the fact that two mutually perpendicular cylindrical holes are made in the body of the wedge gripper, the gripper is provided with cylindrical pins arranged one of the holes, installed opposite one another, the opposite end surfaces of which are cylindrical, and clamping elements mounted

5 one against the other in the second hole, which have internal surfaces conical, external surfaces - cylindrical, conjugated with cylindrical surfaces of the ends of the trunnions,

0 and the jaws are mounted between the clamping elements and have a conical outer surface mating with the conical surface of the clamping elements.

five

In addition, in order to increase the convenience of operation, the ends of the rod of the hydraulic cylinder and the spherical support are sealed with an elastic shell forming a chamber connected to

0 overpressure source, and in

the spherical support is made through holes, at the ends of the jaws - recesses, communicated with the source of overpressure.

Figure 1 shows the proposed device, the incision; figure 2 - section aD in figure 1; in FIG. 3, view B in FIG. 2

The gripper comprises 1, in which a double-acting hydraulic cylinder is placed in the form of high-pressure chambers 2 and 3 and a piston rod 4 with a piston 5 attached at one end to a dynamometer. B. At the other end of the stem 4 there is a spherical support 7 for centering the notched jaws 8 and 9, which clamp the sample 10. In the pick-up housing 1 there are two mutually perpendicular cylindrical holes 11 and 12, the axes aa and v- in which each other displaced by the value of e.

In the hole 11 there are cylindrical pins 13 and 14, the opposite end surfaces 15 and 16 of which are cylindrical, and the clamping elements 17 and 18 installed in the hole 12, in which. inner surfaces 19 and 20 are tapered.

The ends of the stem 4 of the hydraulic cylinder and the spherical support 7 are sealed by an elastic shell 21 forming a low pressure pneumatic chamber 22 connected to an overpressure source (not shown) through the hole 23 in the stem. Through holes 24 are made in the spherical test 7, and recesses 25 are provided at the ends of the jaws 8 and 9. The diameter and the number of holes 24 are selected so that the gas (air) flow through them is less than the gas supply Through the hole 23.

Brackets 26 and 27 are mounted on housing 1, screws 28 and 29 of which abut against ends of trunnions 13 and 14. Clamping elements 17 and 18 are made with protrusions 30 and 31 on which screws 32 are installed, abutting brackets 33 and 34 fixed to housing . In the bracket screwed screws 35 and 36, interacting with the ends of the clamping elements 17 and 18.

Holes 37 and 38 are provided in stem 4 to supply pressure to chambers 2 and 3,

The nut 39 interacts with the housing 1 and the stem 4.

Dinanometer 6 is attached to table 40 of the testing machine.

The device works as follows.

To pre-set the sample 10 in the grip, do the following operations. Sample 10 is placed in the upper grip of the maschine (not shown), nut 39 is screwed from housing 1, screws 28, 29, 32, 35 and 36 are relaxed, small pressure is applied to chamber 2, the body is raised, and the other end of the sample is inserted into The space between the jaws 8 and 9. Compressed air is supplied to the pressure chamber through the opening 23, the spherical support 7 is raised, the air passes through the holes 24 to the recess 25 and the jaws begin to vibrate. This significantly reduces the friction between the ends of the sponges and the spherical support as they move relative to the sample 10.

After aligning the jaws 8 and 9 with respect to the specimen, screws 28, 29, 32.35 and 36 are screwed down to touch each one. Thus, the sample is oriented in gripping relative to axes aa, in-in and cc, its pre-installation is complete.

Next, the pressure is supplied to the chamber 3, the housing 1 together with all the elements mounted on it is lowered and the surfaces of the stem 4 and the spherical support 7 come into contact again. The screws are fully tightened. Then the working pressure is supplied to the chamber 3, the specimen is fixed in the gripper finally, the air supply to the chamber 22 is stopped and the nut 39 is screwed all the way to the end 41 of the stem 4.

After the tensile test, the compression nut 39 is released, the pressure enters the chamber 27, the housing 1, lifting, releases the sample 10 clamped in the jaws 8 and 9. The gripper is ready for testing the next sample.

Thus, the proposed clamping, due to the wide possibility of adjusting the position of the jaws, makes it possible to increase the reliability of fastening flat specimens of various configurations, for example, made of an overlap

Claims (2)

1. A wedge grip on a tensile-compression testing machine, comprising a housing, wedge sponges and a double-acting hydraulic cylinder, on the ends of the rod of which a spherical support for centering the sponges is placed, characterized in that Capture body is made two. mutually perpendicular cylindrical apertures / grippers are provided with cylindrical pins arranged in one of the holes, installed opposite one another, the opposite end surfaces of which are cylindrical, and clamping elements mounted opposite one another in the second hole. the inner surfaces are tapered, the outer ones are cylindrical, joined to the cylindrical surfaces of the ends of the trunnions, and the sponges are TaHOBJieHbi between: the clamping elements and have a conical outer surface that joins the conical surface of the clamping elements. 2. Capture pop. 1, characterized in that, in order to increase the ease of operation, the ends of the hydraulic cylinder rod and the spherical support are sealed with an elastic sheath forming a chamber connected to an overpressure source. and in the spherical support there are holes through, at the ends of the jaws there are recesses communicated with a source of overpressure. Sources of information taken into account in the examination 1. Mask for testing the strength of samples of materials and elements of aircraft structures. M ,, ONTI TSLGI, 1972, p.74-75. 2. US patent number 3335603, cl. 73-103, 1965 (prototype). 7 / (15 P S (rig.1