SU700794A1 - Device for determining the rigidity of elastic elements - Google Patents

Description

I

The invention relates to mechanical engineering, in particular to devices for controlling the stiffness of elastic elements.

A device for automatically measuring the stiffness of a spring is known, comprising a mechanism for installing and loading elements, amplifiers and a two-coordinate recorder (1.

The disadvantage of the device is that it is suitable only for small springs.

Closest to the invention is a device for determining the stiffness of elastic elements, comprising a frame, a support plate with a table placed on it using a brush, an indicator of the height increment of the test element and a power indicator 12.

The drawback of the device is low measurement accuracy and difficulty in servicing. In addition, the kinematics of this device works satisfactorily only if it is installed in level.

The purpose of the invention is to increase the performance of the device and improve the accuracy of the results.

The goal is achieved by the fact that the device for determining the stiffness of elastic elements, comprising a frame, a support plate placed on it with the help of a table stem, a height increment indicator of the test element and a power and hooker, is equipped with pneumatic solenoid, guides with ryuls, and also a plunger, 11) between the rollers and the upper end, which interacts with the pneumatic system valves, the clamp of the P1 tuning the lower end of the plunger to the zero of the power indicator and the height increment lock, np oKHHoA, interacting with the clamp, disk, rigidly with connected to the plunger and interacting with the spring, and a membrane fixed in the frame and connected to the disk.

The drawing shows a 1-cut device, general view.

The device contains a frame, a supporting IIJMI 2 with a table 4 placed on it using 3, a height increment inlicator 5, a power indicator 6, a gyroscope 7, a guide rollers 8, a plunger H, a washer 10 for setting the lower horse on the

zero power indicator and elevator height grinder, spring 11, disk 12, diaphragm 13, loading mechanism 14 with handle 15.

The device works as follows.

The washer 10 of the zero setting in the direction of the compression of the spring 11 achieves such a moment when the liquid level of the power indicator 6 moves. This characterizes the moment of depressurization of the valve group of the pneumatic system along a large seat and corresponds to the zero position of the increment indicator 5. The device is ready for operation.

The tested elastic element (spring) is placed on the table 4. Handle 15 of the loading mechanism 14 compresses the elastic element by a specified amount of deformation on the indicator 5. When the tested elastic element acts on the plunger 9, the latter opens the valve of the pneumatic large seat and reaches chamber A until the force on the effective area of the membrane 13 reaches the true value of the force of the spring being tested. The large saddle valve closes. The steady-state pressure in chamber A characterizes the force of the spring to be tested according to the force indicator 6 (graduated in kg). The deformed spring to be tested is measured by the increment indicator 5.

By reducing the load from the spring being tested, the small seat valve opens. The air from chamber A is released into the atmosphere by analogy with the loading of an element (spring).

The rigid construction of the movable plunger with the membrane fixed in the frame and the spring interacting with the adjustment washer allows at any time stable under various power loads on the adjustable elastic element to occupy the lower end of the plunger reference zero. This moment leads to a significant increase in accuracy.

results in determining the stiffness of elastic elements. And the interaction of the loading mechanisms, the increment indicator, and the power indicator through the tunnel design, leads to a simplification of the operability of determining the stiffness of elastic elements, including the powerful ones.

The proposed device eliminates the need to manufacture a special tooling to determine the stiffness of the elastic elements, which saves working time. In addition, the reduction of working time is due to the simplification of the calibration operation itself. Therefore, an increase in the performance of the device is obvious.

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Claims (2)

1. US patent number 3720101, cl. 73-161,1972 2. USSR author's certificate number 433365, cl. G 01 L 1/04, 1972.