SU619636A1 - Device for testing percussive-action machines - Google Patents

Description

(54) DEVICE FOR TESTING MACHINES OF SHOCK ACTION

The invention relates to devices for absorbing and measuring impact energy, for example, impact machines during their testing.

A pneumatic piston energy absorber of percussion machines is known. It consists of a massive frame, in the upper part of which a power pneumatic cylinder is installed, which creates the necessary force on the handle of the hammer, and in the lower part there is a pneumatic cylinder with a piston. The piston is constantly pressed by compressed air to the upper cylinder cover, on which the mandrel is attached. Through the mandrel, the hammer strikes of the test hammer are transmitted to the piston 1.

The disadvantages of this piston absorber are that it does not sufficiently imitate the real object of processing and the energy absorbed in each cycle returns in the form of a blow to the stand construction.

The closest solution to the technical essence and achievable result is a device for testing percussion machines, including a housing, a hydraulic cylinder with a rolling pins in it and a throttle 2.

However, in such a device leakage of the working fluid (liquid) from the hydraulic cylinder through the throttle occurs, which limits the time of continuous work on the absorber of the working meter. In addition, the working fluid volume changing in time of operation, Kotopoe through the throttle constantly flows out of the hydraulic cylinder, changing the dynamics of the tested machine.

The purpose of the invention is to improve the accuracy of measuring the dynamic characteristics of the machine.

For this purpose, a pneumatic cylinder is installed in the housing of the device, in which a piston with a rod is inserted into the hydraulic cylinder, while the pneumatic cylinder chamber between the piston and the housing communicates with the throttle and with a constant source of compressed air.

The drawing shows the proposed device, a longitudinal section.

A hydraulic cylinder 2, filled with a working fluid (liquid) 3, is located in the housing 1 of the device. The hydraulic cylinder has a rolling pin-plunger 4. The pneumatic cylinder 5 is made in the housing, which houses the piston 6 with the rod 7 passing through the wall of the housing to the cylinder 2 and receiving blows of the working fluid 3, transmitted from the tested maschiny. Compressed air is supplied to the operating chamber 8 of the motor cylinder 5 from the network. The pressure is controlled by the pressure gauge 9. The hydraulic cylinder 5 has a throttle 10 to maintain a predetermined pressure in the working chamber 8, which is necessary for a definite stroke of nopuiHH 6 depending on the different energies of the subjects map1in The piston stroke o) is registered 51 with a special device - the recorder 11. The proposed device for testing percussion machines works in the following manner. In the test machine (not shown), a rolling pin-plunger 4 is inserted in place of a working tool. The test machine, launched into operation, hits the rolling pin-plunger, the energy of which is transmitted through working body 3 to the piston rod 7 of the piston 6. Under the action blows piston 6 is mixed, meeting the desired resistance of compressed air in the working chamber 8, controlled by the pressure gauge 9 and maintained constant by the throttle 10. By mixing the piston 6 and its frequency of movement recorded by the recorder 11, Leray 8, it determines the impact energy and shock test machine frequency.

Claims (2)

4 This device can also be used for life tests with control of energy impact and frequency of impacts on recorder 11, which is necessary to control the quality of manufactured machines and improve the accuracy of test results of impact machines. Claims A device for testing percussion machines, including a housing, a hydraulic cylinder with a skive-plunger exchanged in it, and a choke, characterized in that, in order to improve the accuracy of measuring the dynamic characteristics of the machine, a pion.moelectric cylinder is made in the cornus. The piston with the rod entering the hydraulic cylinder is installed, while the pneumatic cylinder chamber between the piston and the housing is in communication with the throttle and with a constant feed source with compressed air. Sources of information taken into account in the examination: 1. V. Gorbunov et al. Manual pneumatic machines. M., “Nedra, 1967, p. 41 - 44, 49-51. 2. USSR author's certificate number 530976, cl. F 16 F 9/00, 1972.