RU1785887C - Express diagnosis stand for shock machines - Google Patents

Abstract

Usage: in mechanical engineering, for testing impact machines. The inventive stand for express diagnostics of impact machines includes a base, a load unit mounted on it, a device for measuring energy parameters, a reservoir for compressed air, and the device for measuring energy parameters is made in the form of an anvil with a sample mounted on it, the load node is made in the form of flexible tags for interaction with the handle of the test machine and the lock associated with them, and a reservoir of compressed air of a given volume. 1 ill.

Description

The invention relates to means for testing impact machines.

Stands are known for determining the vibrational and energy parameters of impact machines, consisting of a base, a device simulating a processing object, a loading unit, and a measurement system.

These stands are designed for research purposes in laboratory conditions and do not fully satisfy the needs of organizations operating percussion machines, as they are expensive, difficult to install and operate, and in most cases require a special room for testing and measurement.

The closest technical solution to the invention is a stand for testing jackhammers for vibration, including a base with racks, a friction loader with a test

a rolling pin installed with the possibility of axial movement inside the friction loader under the action of a jackhammer and a loading unit mounted on racks in the upper part of the stand.

The disadvantage of this stand is the high cost, significant overall dimensions, difficulty of installation and complexity of operation.

The purpose of the invention is to simplify the design of the bench and the diagnostic process of impact machines.

The goal is achieved in that the stand for express diagnostics of impact machines has a reservoir for compressed air, a loading unit and devices for measuring energy parameters. The reservoir for compressed air is located on the air line with the possibility of filling it with air from the line and emptying into the impact machine under study. The volume of the tank is selected based on the research class XI 00 SL 00 00

Xi

machine and the time required to take measurements, i.e. for different classes of impact machines and the required test conditions, the volume of the tank can be varied.

Knowing the amount of work that a new percussion machine does (measurements are made on a sample fixed to the anvil, for certain necessary initial parameters of the experiment: the volume and pressure of compressed air) and, comparing it with the work of the reference percussion machine (for the same initial experimental parameters), you can judge the degree of wear of machine parts and diagnose its performance. At the same time, it is possible to measure vibrational characteristics by fixing vibration sensors at the required points. ...;

The compressed air tank is equipped with a pressure gauge. The loading unit is made in the form of flexible tons. Flexible links through elastic elements, the dinanometer are attached to the base and stand of the stand. Between the elastic element and the flexible rods, a dynamometer is installed, by means of which the pressure on the handle of the percussion machine is controlled and a lock that allows you to disconnect the flexible ones and replace the percussion machines, as well as adjust the length t g depending on the class of the impact machine.;.

This loading unit differs from previously known in that the centering of the body of the impact machine relative to the working tool is carried out by the machine itself, and not by additional devices (guide and tube), stand. This solution greatly simplifies the design of the bench and significantly approximates the test conditions of the machine to the actual operating conditions.

A device for measuring energy parameters consists of an anvil in which a sample is fixed. A sample can be a section of rolled soft metal (lead, aluminum), along which a series of impacts are applied, the energy and quantity of which depends on the technical condition. shock machines. The cross section of the sample and the angle of inclination of the faces of the shock end of the working tool (rolling pin) are selected based on the class of the machine and the conditions in which it operates, while the rebound coefficient of the hammer from the rolling pin is within its value under real operating conditions of the machine. From the point of view of the functional elements of the diagnostic

At the same time, the specimen and the anvil simultaneously with the device for measuring energy parameters play the role of a friction load.

The drawing schematically shows the proposed stand in two projections.

The stand for express diagnostics of impact machines consists of a bed 1. on which an anvil 2 is installed with a sample 3 and a stand 4. The percussion tool 5 is mounted with the possibility of axial movement along the guide 6. The pressing force is created by elastic elements 7, which through flexible rods 0 transfer it to the handle 9 of the tested impact machine. The amount of pressure is varied or set by means of a screw 11 and is fixed by a dynamometer 12. The lock 13 serves to disconnect the flexible rods 8 for the convenience of replacing the machine under test, Air reservoir 14, valves 15 and 16 serve to form a certain volume of compressed air. The air pressure in the tank 14 is fixed by a pressure gauge 17 ,.

The stand works as follows.

Anvil 2 with the sample 3 installed in it is mounted on the bed 1. The impact machine 10 under investigation, together with the working tool 5, is installed in the guide 6. Flexible rods 8 surround the handle 9 of the impact machine Yu and fasten in the lock 13. The amount of pressing force created by the elastic elements 7 is varied by a screw 11 fixed to the post 4 and fixed by a dynamometer 12, valve 16 is open, valve 15 is closed. Compressed air from the line enters the reservoir 14, the pressure of which is controlled by a pressure gauge 17. After filling the reservoir 14 with compressed air to the required pressure, the valve 16 closes. The bench is ready for testing. Valve 15 opens. Compressed air enters the machine under test 10. The machine begins to run. Working tool 5, moving along guide 6, inflicts a series of blows on sample 3. After stopping the machine, flexible rods 8 are disconnected and lifted into the machine. Impact action 10 together with a rolling pin 5 remove the anvil 2. with sample 3. According to the degree of deformation Sample 3 determines the energy characteristics of the impact machine.

The stand allows, if necessary, to take the vibrational characteristics of the percussion machine by installing vibration sensors on the handle or body associated with the measuring path.

The use of the present invention allows the diagnosis of impact machines directly in the areas operating this tool. This ensures the timely decommissioning of machines that do not meet the technical requirements, save live labor, reduce the severity of labor, increase its productivity, and improve working conditions.

Formula izobreteni Stand for express diagnostics of shock machines containing bases,

0

a loading unit mounted thereon, a device for measuring energy parameters, a reservoir for compressed air, characterized in that, in order to simplify the design and simplify the process of diagnostics of impact machines, the device for measuring energy parameters is made in the form of an anvil, with a sample fixed to it, the loading unit is made in the form of flexible rods for interaction with the handle of the tested machine and the lock associated with them, and the reservoir of compressed air of a given volume.