NEW Basic Mechanics course
Lesen Sie mehr7.1.- MASCHINENBAU
Maschinenbau ist die Anwendung von Physik auf die Elemente, die uns umgeben, um bestehende mechanische Geräte zu verbessern oder neue zu schaffen. Da sie auf physikalischen Prinzipien basiert, geht ihr Ursprung auf den Ursprung dieser Prinzipien zurück, und ihre Entwicklung ist eng mit den strongchritten in der Mechanik verbunden. Dennoch wurde sie erst mit der Erfindung der Dampfmaschine zu einer der Säulen der Entwicklung der Industrie.
Mehr sehenDie Industrielle Revolution des siebzehnten Jahrhunderts fand als Ergebnis der Schaffung dieser Vorrichtung statt. Von diesem Moment an begann mit den Beiträgen von Wissenschaftlern und Ingenieuren, die so wichtig waren wie Watt, Stephenson, Tesla oder Rankine, eine beispiellose Erneuerung sowohl des Konzepts als auch der Entwicklung neuer Maschinen.
Das Konzept der Industrie, wie es bis dahin bekannt war, änderte sich mit der Entwicklung dieser Maschinen. Massenproduktion wurde eingeführt, Maschinen Designs wurden verbessert und infolgedessen wurde die Bandbreite der Produktionsprozesse erhöht, was zu einer unvorstellbaren Vielfalt neuer Produkte führte, die an die Bedürfnisse der Gesellschaft angepasst waren.
Im Rahmen des Maschinenbaus sind folgende Studien- und Anwendungsbereiche zu erwähnen:
- Mechanismen.
- Strukturen.
- Dynamik.
- Vibrationen.
- Osschwingungen.
Gegenwärtig muss jede Industrie, von Lebensmittel bis Luft- und Raumfahrt, auf dem höchsten technologischen Niveau Innovation sein. Deshalb ist Forschung und Entwicklungvon neuen Geräten besonders wichtig, um immer auf dem neuesten Stand der Technologie zu sein und auf dem von der Industrie geforderten Niveau 4.0.
Siehe Produkte
Verwandte Materialien
MASCHINENBAU UNITS
7.1.1.- MECHANICS FUNDAMENTALS KITS
LIMEBA
The Integrated Basic Mechanics Laboratory, "LIMEBA," designed by EDIBON, allows for the construction of various experiments on the base panel, where length measurements are possible thanks to the distance between the centers of the perforations...
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA/EC
Panel und Koffer mit Gemeinsamen Elementen für LIMEBA
Zubehör von
LIMEBA
It is the supporting structure where the modules’s elements are mounted in order to undertake the experiments and hence, the basepanel is necessary along with any module.The panel is pierced with equidistant holes that help students to take...
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA1
Statische Experimente.
Zubehör von
LIMEBA
Statics is the part of Mechanics that studies any kind of structure or element in balance-equilibrium.Basically the module consist on experiments in which the student shall learn to deduce the main principles of Statics and its most important...
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA2
Experimente zum Hubmechanismus.
Zubehör von
LIMEBA
Experimentation with the most important load lifting mechanisms.Study of the work and performance of different mechanisms.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA3
Experimente zur Funktionsweise des Getriebes.
Zubehör von
LIMEBA
Most recent machines require the transmission of motion between elements to obtain the desired mechanical result. The mechanisms studied in this module are those that transmit motion between two axles.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA4
Dynamische Experimente
Zubehör von
LIMEBA
Dynamics is the part of Mechanics that analyzes the motion of an element or mechanism caused by a force. Thus the study is concentrated on the basic laws of Dynamics.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA5
Experimente zur Reibung.
Zubehör von
LIMEBA
This module considers the most important phenomenon of Dynamics: Friction. It is a manifestation of the energy loss due to contact, effect that happens in every real-world mechanism.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA6
Experimente zu speziellen Mechanismen.
Zubehör von
LIMEBA
This module considers various mechanisms frequently used in industrial processes, without them some operations would not be possible with the same efficiency. Here these mechanisms are shown and their function analyzed.
7.1.2.1.- MECHANISMEN
MBD
Schubkurbelgetriebe.
The Slider Crank Mechanism, "MBD", designed by EDIBON, is an example of slider-crank mechanism.This mechanism is made of aluminum and consists of a rotary element (graduated disc), called crank, connected to a rigid bar, calledconnecting rod. When...
7.1.2.1.- MECHANISMEN
MYE
Kurbelschleife.
The Scotch Yoke Mechanism, "MYE", designed by EDIBON, is an example of slider-crank mechanism for converting the linear motion of a slider into rotational motion or vice versa.It is made of aluminum and consists of a rotary element, called crank,...
7.1.2.1.- MECHANISMEN
MBM1
Kurbelgetriebe mit Nutverbindung.
The Slotted Link Mechanism, "MBM1", is an example of a quick-return mechanism, capable of transforming circular motion into reciprocating motion. It is made of aluminum and consists of a rotary element (graduated disk), called crank, connected to...
7.1.2.1.- MECHANISMEN
MBM2
Whitworth- Quick -Return Mechanismus.
The Whitworth Quick Return Mechanism, "MBM2", is a mechanism able to transform circular movement into reciprocating movement. It ismade of aluminum and consists of a rotary element, called crank, with a graduated disk, connected to a rigid bar,...
7.1.2.1.- MECHANISMEN
MCA
Kettenmechanismus.
The Four-Bar Mechanism, "MCA", designed by EDIBON, is a bench-top unit to perform laboratory experiments.It is made of anodized aluminum and consists of two rotary elements (graduated discs) mounted on ball bearings. The discs include a scale to...
7.1.2.1.- MECHANISMEN
MME
Genfer Stopp-Mechanismus.
The Geneva Stop Mechanism, "MME", designed by EDIBON, is a mechanism that transforms continuous circular motion into intermittent motion. It is a positive drive in which the driven wheel is positively moved or locked.It is made of aluminum and...
7.1.2.1.- MECHANISMEN
MAC
Kupplungsmechanismus.
The Coupling Mechanism, "MAC", represents a simple Oldham type coupling. The lateral displacement of the input and output shafts may be varied and circular scales are fitted to the input and output flanges.It consists of two outer discs made of...
7.1.2.1.- MECHANISMEN
MUN
Kreuzgelenkmechanismus.
The Hooke’s Joint Mechanism, "MUN", designed by EDIBON, represents a universal coupling, also called a U-joint, Hooke joint or cardan joint. The Hooke joint is a universal mechanism that is often used to transmit rotary motion between two...
7.1.2.1.- MECHANISMEN
MEX
Nockenwelle mit Stößel.
The Cam and Follower Mechanism, "MEX", allows to study the cam-follower and eccentric-follower mechanisms. For that purpose, several plate cam models in different forms, one eccentric and several roller-shaped, flat-shaped, wedge-shaped and...
7.1.2.1.- MECHANISMEN
MBI
Kurbelgetriebe.
The Crank Mechanism "MBI", is a unit designed to observe, study and record the motion of a crank and the forces involved in a simple engine mechanism. The piston is linearly displaced through a cylinder with the aid of a guide.Bearings are coupled...
7.1.2.1.- MECHANISMEN
MDA
Ackermann-Lenkmechanismus
The Ackermann Steering Mechanism, "MDA", is a bench-mounted unit designed to determine the lead angle of a steering trapezoid in an Ackermann steering mechanism, the disadvantages of incorrectly adjusted track rods and the influence of the track...
7.1.2.1.- MECHANISMEN
MMEL
Windenmechanismus
The Winch Mechanism, "MMEL", allows to study the lifting velocity and load transmission of a winch. Efficiency and load transmission can be determined by force balance.The unit consists of a gear transmission mechanism. One gear is the input gear...
7.1.2.1.- MECHANISMEN
MBLU
Bar Linkages Unit
The Bar Linkages Unit "MBLU" allows many experiments using different arrangements of their parts.The "MBLU" unit includes a selection of more than twenty perforated bars of different lengths and pivots or "joints" to allow students to configure...
14.1.2.2.- VERZAHNUNG
MTSF
Schneckenradeinheit
The Worm and Wheel Unit, "MTSF", allows to demonstrate the principle of a worm gear.The unit consists in a worm and a wheel. These parts are mounted on ball bearings and fixed to a vertical panel.The worm and wheel are positioned a set distance...
14.1.2.2.- VERZAHNUNG
MAE
Gerät zur Beschleunigung von verzahnten Systemen.
The Acceleration of Geared Systems Unit "MAE" allows to perform tests to calculate the moment of inertia of a gear train system.The MAE unit includes six gears. Two of them can have another position in the shafts to vary the gear ratio, allowing...
14.1.2.2.- VERZAHNUNG
MSDA
Montageausrüstung für einfache Getriebe
The Simple Drives Assembly Unit, "MSDA", allows the knowledge and learning of the fundamentals of the mechanical transmission technique, as well as the assembly, disassembly and experimentation with simple gears.The unit allows to carry out...
14.1.2.2.- VERZAHNUNG
MCDA
Montageausrüstung für Kombinationstransmissionen
The Combined Drives Assembly Unit, "MCDA", allows carrying out advanced exercises and provides an understanding of the significant components and arrangements of the mechanical drive technology.With this unit, practices can be carried out to...
14.1.2.2.- VERZAHNUNG
MGTA
Montageausrüstung für Zahnradsätze
The Unit to Study Gear Train Assembly, "MGTA", allows to perform diverse assemblies of gearboxes. The student will essentially learn the practice of assembling gear components in transmissions and will be introduced to the technique of mechanical...
14.1.2.2.- VERZAHNUNG
MGE
Gerät zur Zahnraderzeugung.
The Gear Generation Unit, "MGE", has been designed by EDIBON to study rack and pinion systems. With this unit the student can draw by an easy procedure the profile of a tooth, produced by the involute process of the rack when passing over the...
14.1.2.2.- VERZAHNUNG
MEE
Verzahnte Hebemaschine.
The Geared Lifting Unit, "MEE", has been designed to study a simple lifting mechanism and its use to determine the speed ratio, its mechanical advantages and efficiency.The unit is mounted on a metal structure with bearings that support the gear...
7.1.2.2.- VERZAHNUNG
MESE-T
Geared Study
The Geared Study Drive Unit, "MESE", has been designed by EDIBON to dynamic study of different gears, including a standard three shaft gear train for study, which can be modified with a simple setting to obtain a simple transmission.For the...
7.1.2.2.- VERZAHNUNG
KSGT
Unit for the Kinematic Study of Gear Trains
The Unit for the Kinematic Study of Gear Trains, "KSGT", unit includes a pivoting rail with a fixed axle to which two more axles can be fixed in any position in function of the feature to study.The cogwheels may be assembled on the axles in...