Актуальные проблемы в машиностроении

. Том 4. № 2. 2017

Технологическое оборудование,

оснастка и инструменты

____________________________________________________________________

53

23.

Казанцев М.Е.

Построение структурных схем и настройка параметров

исполнительных движений: учебное пособие. – Новосибирск: Изд-во НГТУ, 1997. – 54 с.

24.

Скиба В.Ю.

Обеспечение требуемого характера распределения остаточных

напряжений при упрочнении высокоэнергетическим нагревом токами высокой частоты //

Обработка металлов (технология, оборудование, инструменты). – 2007. – № 2 (35). – С. 25–27.

25.

Ivancivsky V., Parts K., Popov V.

Depth distribution of temperature in steel parts during

surface hardening by high frequency currents // Applied Mechanics and Materials. – 2015. – Vol.

788. – P. 129–135. – doi: 10.4028/

www.scientific.net/AMM.788.129.

26. The features of steel surface hardening with high energy heating by high frequency

currents and shower cooling / V.V. Ivancivsky, V.Y. Skeeba, I.A. Bataev, D.V. Lobanov, N.V.

Martyushev, O.V. Sakha, I.V. Khlebova // IOP Conference Series: Materials Science and

Engineering. – 2016. – Vol. 156. – P. 012025. – doi: 10.1088/1757-899X/156/1/012025.

27. Formation of high-carbon abrasion-resistant surface layers when high-energy heating by

high-frequency currents / N.V. Plotnikova, V.Y. Skeeba, N.V. Martyushev, R.A. Miller, N.S.

Rubtsova // IOP Conference Series: Materials Science and Engineering. – 2016. – Vol. 156. – P.

012022.

STRUCTURAL-KINEMATIC ANALYSIS OF HYBRID METAL-CUTTING EQUIPMENT

Khlebova I. V.

, Master’s Degree student, e-mail:

shleina.irina@mail.ru

Rubtsova N. S.

, Master’s Degree student, e-mail:

rubcova-nadezhda@mail.ru

Skeeba P. Yu.

, Student, e-mail:

skeeba@rambler.ru

Skeeba V. Yu.,

Ph.D. (Engineering), Associate Professor, e-mail:

skeeba_vadim@mail.ru

Novosibirsk State Technical University, 20 Prospekt K. Marksa, Novosibirsk, 630073, Russian

Federation

Abstract

The main direction of modern engineering development is supporting the production of

competitive and quality products.

In this regard, in the machine tool industry there is a tendency towards the development of an

innovative type of technological equipment - hybrid (interconnected) metalworking systems.

Combining heterogenous processes in one machine: abrasive grinding with surface hardening,

laser surface hardening coupled with machining, cutting - quenching, turning - quenching -

grinding, is due to the desire of developers to expand the technological capabilities of machines and

ensure its single unit operation in flexible machinery production.

This method makes it possible not only to achieve high levels of resource and energy saving, but

also to ensure an appropriate processing performance level and parts quality.

The target of the research is the initial design stage of a hybrid technological equipment

combining mechanical and thermal surface treatment.

The work objective: to increase the effectiveness of the initial stages of hybrid metalworking

systems design on the basis of structural synthesis of the formative systems of machining facilities

and its performance forecasting.

Keywords

hybrid equipment, structural formula, production processes, integrated circuit structure,

metalworking