Wyniki wyszukiwania - BazTech

1

Influence of the suspension shape on the dynamic characteristics of the electrodynamic shakers

Augustyn Damian, Fidali Marek

Vibrations in Physical Systems

|

2023

|

Vol. 34, nr 2

art. no. 2023227

EN

Electrodynamic shakers are being used for years in dynamic tests of machines and devices. One of the main components of electrodynamic shakers is the armature suspension. Suspension is one of the factors responsible for the dynamic characteristics of the shaker. Various types of suspensions are used in shakers [1, 2]. Their role is to ensure the correct stroke of the armature and to keep the coil concentrically in the magnetic gap. As part of the research, the influence of the shape of the suspension springs of the electrodynamic shaker on its dynamic characteristics was evaluated. During the research, self-designed electrodynamic shaker was used, in which a suspension consisting of two-disc springs made of glass fiber with a thickness of 0.5 mm was used. Eight different spring types were prepared for the study. The tests were carried out in laboratory conditions on a previously prepared test bench. For each of the springs tested, dynamic frequency characteristics were determined for three frequency ranges: 10 - 100 Hz with a step of 10 Hz, 100 Hz - 1000 Hz and 1000 Hz - 10000 Hz with a step of 100 Hz. Studies show a significant influence of the shape of the springs used on the dynamic characteristics of the modal shaker. For the preselected springs, tests were carried out without and with a load. The characteristics determined during the research were analyzed, which allowed to indicate the optimal shape of the spring, due to the values of the generated force and the linearity of the dynamic characteristics [3, 4].

2

Identification and evaluation of the characteristics of a selected commercial MEMS based vibration sensor for the machine condition monitoring

Augustyn Damian, Fidali Marek

Diagnostyka

|

2023

|

Vol. 24, No. 4

art. no. 2023404

EN

With the emergence of the Industry 4.0 concept, machine vibration monitoring and diagnostics systems based on the so-called smart vibration sensors using MEMS accelerometers become very popular on the market. Many automation companies use specifically designed for CbM industrial vibration sensors based on electronic chips with enclosed MEMS accelerometers. However, in the commercial vibration sensors datasheets very often are not provided detailed metrological parameters like frequency response in the declared frequency band. The article presents the results of research concerned to identification of frequency response of an exemplary available on market digital accelerometer dedicated to machines condition monitoring. The determined characteristics indicate that the sensor can be used for basic diagnostics of machines in accordance to the series of vibration standards ISO 10816 and ISO 20816. On the basis of the determined characteristics, it can be concluded that there are some non-linarites of the frequency response functions at the boundaries of the declared measurement band. It shows that application of that sensor to precise measurements conducted during scientific research could be limited.

3

Method of machining centre sliding system fault detection using torque signals and autoencoder

Augustyn Damian, Fidali Marek

Acta Mechanica et Automatica

|

2023

|

Vol. 17, no. 3

445--451

EN

The sliding system of machining centres often causes maintenance and process problems. Improper operation of the sliding system can result from wear of mechanical parts and drives faults. To detect the faulty operation of the sliding system, measurements of the torque of its servomotors can be used. Servomotor controllers can measure motor current, which can be used to calculate motor torque. For research purposes, the authors used a set of torque signals from the machining centre servomotors that were acquired over a long period. The signals were collected during a diagnostic test programmed in the machining centre controller and performed once per day. In this article, a method for detecting anomalies in torque signals was presented for the condition assessment of the machining centre sliding systems. During the research, an autoencoder was used to detect the anomaly, and the condition was assessed based on the value of the reconstruction error. The results indicate that the anomaly detection method using an autoencoder is an effective solution for detecting damage to the sliding system and can be easily used in a condition monitoring system.

4

Przemysłowe systemy predykcji stanu maszyn i procesów

Augustyn Damian

Utrzymanie Ruchu

|

2022

|

Nr 1

20--25

PL

Wraz z koncepcją Przemysłu 4.0 predykcyjne utrzymanie ruchu staje się coraz popularniejsze. Głównym celem predykcji jest przewidywanie przyszłych stanów awaryjnych maszyn i procesów, bazując na znajomości stanów przeszłych oraz obecnych.

5

Diagnostyka serwonapędów na podstawie sygnałów momentu

Augustyn Damian

Utrzymanie Ruchu

|

2022

|

Nr 2-3

22--27

PL

We współczesnych fabrykach coraz większy nacisk kładzie się na stosowanie zautomatyzowanych i zrobotyzowanych linii produkcyjnych. W kluczowych elementach nowoczesnych linii produkcyjnych szczególną rolę odgrywają serwonapędy.

6

Przemysłowe systemy predykcji stanu maszyn i procesów

Augustyn Damian

Fastener : rynek elementów złącznych

|

2022

|

nr 1

26--30

PL

Wraz z koncepcją Przemysłu 4.0 predykcyjne utrzymanie ruchu staje się coraz popularniejsze. Głównym celem predykcji jest przewidywanie przyszłych stanów awaryjnych maszyn i procesów, bazując na znajomości stanów przeszłych oraz obecnych.

7

Wzbudniki elektrohydrauliczne - budowa, działanie, zastosowanie

Augustyn Damian

Utrzymanie Ruchu

|

2021

|

Nr 3

57--60

PL

Zrozumienie natury fizycznej zjawisk wibracyjnych od zawsze było ważne podczas projektowania i konstruowania maszyn i urządzeń. Jedną z dziedzin nauki i techniki, pozwalającą badać zjawiska wibracyjne, jest analiza modalna. Analiza modalna dotyczy badania własności dynamicznych obiektów technicznych metodami symulacyjnymi i eksperymentalnymi. Eksperymentalna analiza modalna jest realizowana w warunkach laboratoryjnych i wymaga przeprowadzenia eksperymentu, podczas którego badany obiekt jest pobudzony do drgań. Podczas eksperymentu dokonuje się pomiarów wymuszenia oraz odpowiedzi w wielu punktach pomiarowych rozmieszczonych na badanym elemencie.