SU781670A1 - Machine for tensile testing of test piecies - Google Patents

Description

The invention relates to the testing of materials for strength, in particular to machines for testing samples for stretching. The known machine for testing samples for stretching, holding the frame and lever lever mounted on it, movable and fixed gripper, drive for moving the movable gripper. The disadvantage of this device is its low accuracy. The closest to the invention to the technical essence and the achieved result is a machine for testing samples for stretching, containing a frame, an elastic force meter mounted on it, a fixed gripper, a movable gripper connected to the force meter, a moving gripper moving the movable gripper with a driving screw and means force measurement with a recording device 2. The disadvantage of the machine is the complexity. the design, especially the means of measuring force, and its reliability is low. The purpose of the invention is to simplify the design of the machine and increase its reliability. Said object is achieved in that the means for measuring the force is designed as a pivotally mounted console, the end of which interacts with siloizmeritelej and recording instrument lever latch, an electromagnet and mounted on the console and interacting with it podppyzhinennogo, Jeamotopmoz schegoc eccentric, which is perpendicular to the longitudinal axis of the arm axis, a groove is made on the generatrix of the eccentric surface; one end of the lever lock interacts with the electromagnet, and the other with; eccentric groove. Figure 1 shows a schematic of a machine; Fig. 2 is a diagram of the force measuring means. The machine contains a frame 1, mounted on the frame 1, an elastic force measuring device 2, a fixed grip 3, mounted on the cylinder 2, a movable grip 4, a drive 5 moving the movable grip 4 with the lead screw 6, a recording device 7, a hinged console 8 with a spring, end 9 the console 8 is connected to the load cell 2 by screw 10, and 11 is connected to the recording device 7,

lever lock 12 with spring 13, electromagnet 14 mounted above console 8 and self-braking eccentric 15 interacting with spiral spring 16, axis of eccentric 15 perpendicular to longitudinal axis of console 8. On the surface of eccentric 15, groove 17 is made, one KOHetf of lock 12 interacts with 17 eccentric, ka 15, and the second with electromagnet .14, and the eccentric return mechanism 18.

The machine works in the following way.

Sample 19 is installed in the mobile and stationary grips 3 and; .4. The actuator 5 moves the movable gripper 4 and the electromagnet 14, which releases the lever lock 12 and the eccentric 15. The lead screw b moves the movable gripper 4 and loads the sample 19. The elastic measuring device 2 is bent in proportion to the force on the sample 19 and the screw 10 moves the console end 9 8, which, through the cable 11, moves the pointer of the recording device 7. The eccentric 15, which is turned by the spring 16, follows the movement of the console 8. At the time of unloading the sample 19, the elastic measuring device 2 abruptly spreads. The co-nsol 8 tends to follow the elastic force measuring device 2, but the eccentric 15, the length of which will provide self-braking, delays the SB console to the position clamped by the elastic measuring device 2 at the moment of destruction of the sample 19. The arrow of the recording device 7 remains in place. Then turn on the electromagnet 14 and the eccentric 15 is returned by the mechanism 18, and the console 8 is returned to its original position. Lever lock 12

. again interacts with the groove 17 of the eccentric 15.

The machine allows you to reliably record the moment of destruction and force at. destruction of the sample.

Claims (2)

1. Avdeev V.A. Technique for determining the mechanical properties of materials. M., Mashgiz, 1958, p.50-51. 2. Free catalog ONTIPPribor. Testing machines and stands. M., 1967, p.24 (prototype). ., i., v .- .; ten