Тексты на английском
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The achievements of the scientific school of Professor Yuri Kuznetsov
The achievements of the scientific school of Professor Yuri Kuznetsov
The achievements of the scientific school of Professor Yuri Kuznetsov
The achievements of the scientific school of Professor Yuri Kuznetsov
The achievements of the scientific school of Professor Yuri Kuznetsov
The achievements of the scientific school of Professor Yuri Kuznetsov
The achievements of the scientific school of Professor Yuri Kuznetsov
The achievements of the scientific school of Professor Yuri Kuznetsov
Yuri Kuznetsov DSc, Professor "KPI" He was born June 24, 1940 in
Yuri Kuznetsov DSc, Professor "KPI" He was born June 24, 1940 in
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about machine tools and mechanisms
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about parallel kinematic machines
Books about patenting
Books about patenting
Books about patenting
Books about patenting
BACKGROUND FOR THE DEVELOPMENT OF GENETIC MECHANICS
BACKGROUND FOR THE DEVELOPMENT OF GENETIC MECHANICS
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
EXAMPLES OF ELEMENTARY SOLID BODIES AND FIGURES
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
Examples of deformed (modified) elementary solid bodies
EXAMPLES OF MECHANICAL LINKS
EXAMPLES OF MECHANICAL LINKS
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
EVOLUTION OF PARENT CHROMOSOME (MECHANICAL LINK IN THE FORM OF A
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Genetic model of composition and development of the supporting system
Geometric transformation operators of layouts machines (carrier
Geometric transformation operators of layouts machines (carrier
Geometric transformation operators of layouts machines (carrier
Geometric transformation operators of layouts machines (carrier
Geometric transformation operators of layouts machines (carrier
Geometric transformation operators of layouts machines (carrier
«Chromosome» inversion
«Chromosome» inversion
Drilling and milling group Patent of Ukraine № 86533
Drilling and milling group Patent of Ukraine № 86533
Drilling and milling group Patent of Ukraine № 86533
Drilling and milling group Patent of Ukraine № 86533
Drilling and milling group Patent of Ukraine № 86533
Drilling and milling group Patent of Ukraine № 86533
The suuport frame and tool systems Drilling and milling machines with
The suuport frame and tool systems Drilling and milling machines with
The suuport frame and tool systems Drilling and milling machines with
The suuport frame and tool systems Drilling and milling machines with
The wedge assembly bench milling machine with a mechanism of parallel
The wedge assembly bench milling machine with a mechanism of parallel
The wedge assembly bench milling machine with a mechanism of parallel
The wedge assembly bench milling machine with a mechanism of parallel
The wedge assembly bench milling machine with a mechanism of parallel
The wedge assembly bench milling machine with a mechanism of parallel
Lathe tools with parallel kinematics ("spiders") hybrid layout
Lathe tools with parallel kinematics ("spiders") hybrid layout
Lathe tools with parallel kinematics ("spiders") hybrid layout
Lathe tools with parallel kinematics ("spiders") hybrid layout
Lathe tools with parallel kinematics ("spiders") hybrid layout
Lathe tools with parallel kinematics ("spiders") hybrid layout
Lathe tools with parallel kinematics ("spiders") hybrid layout
Lathe tools with parallel kinematics ("spiders") hybrid layout
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Processing along the arc of a circle (circular interpolation)
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Cutting path of the helix
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
Typical schemes of milling planes
The domain of existence and construction of a genetic model for
The domain of existence and construction of a genetic model for
Variant embodiment of the synthesized spindle motor coaxially with the
Variant embodiment of the synthesized spindle motor coaxially with the
Multi-axis drilling and milling machine of high mobility without
Multi-axis drilling and milling machine of high mobility without
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Modular desktop CNC machines
Our laboratory of desktop CNC machines
Our laboratory of desktop CNC machines
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The achievements of the scientific school of Professor Yuri Kuznetsov in the machine tool industry

содержание презентации «The achievements of the scientific school of Professor Yuri Kuznetsov in the machine tool industry.ppt»
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1The achievements of the scientific 18and forecasting of TS; multilevel
school of Professor Yuri Kuznetsov in the morphological approach to structure and
machine tool industry. E-mail: synthesys of TS. Application of frame and
info@zmok.kiev.ua. Ministry of Education shell structures of supporting systems
and Science of Ukraine NTUU “Kiev based on the theory of building mechanics.
Polytechnic Institute” department of Aggregate/modular principle of
MACHINE TOOLS AND MACHINE DESIGN. 1. arrangement. Use of advanced information
2Yuri Kuznetsov DSc, Professor technologies and intelligent computer
"KPI" He was born June 24, 1940 systems. 18. 18.
in Kherson, Ukraine. His research 19Main areas of knowledge, systems,
interests include the creation of machine threads and energy transformers used to
tools, machine tool systems of new create machine tools. Field of science.
generation and their mechanisms on a Name of the system and functions. Threads.
modular principle, creative and Energy transformers (ET). Building
intellectual property. In 1969 he defended mechanics. Support system. Gravitational.
his thesis on "Study and development Absent. Applied Mechanics. Mechanical,
of the clamping collets and feed rounds of transfer motions and loads. Kinematic,
automatic lathes", and in 1984 at the force, energy. Mechanical (MBE).
Bauman Moscow Higher Technical School Electromechanics. EM - a system of
defended his doctoral thesis on movement and load transfer.
"Synthesis of clamping mechanisms rod Electromagnetic, power, energy.
machines". Academician of the Academy Electromechanical (EMPE). Hydromechanics.
of Sciences of Higher School of Ukraine, GM - a system of movement and load
professor of "Designing tools and transfer. Hydraulic, power, energy.
machines" "KPI ", honored Hydromecanichal (GMPE). Aeromechanics. AM
inventor of the USSR, the deserved worker - a system of movement and load transfer.
of Education of Ukraine, Honored Teacher Air, power, energy. Pneumomechanical
"KPI ", Doctor Honoris Causa (PMPE). 19. 19.
(Technical University of Gabrovo, 20Main areas of knowledge, systems,
Bulgaria), the author of more than 700 threads and energy transformers used to
scientific works, among them 60 books, 400 create machine tools. Field of science.
inventions, two standards of the USSR. The Name of the system and functions. Threads.
author of the first Soviet semi-automatic Energy transformers (ET). Thermomechanics.
machine for turning diamonds. 2. TM - a system of movement and load
3Disciples and followers. Senior transfer. Heat, power, energy.
generation: Doctors of Technical Sciences, Thermomechanical (TMPE). Biomechanics. BM
Professors: V.I. Kalchenko, A.A. Vacev - a system for a motion and loads.
(Bulgaria), S.G. Nagornyak, Yu. M. Biological, thermal, chemical, power,
Danilchenko, A.V. Shevchenko, I.V. Lutsiv, energy. Biomechanical (BMPE). Electronics.
V.I. Sidorko. Ph.D., docents: K.I. Electronic transmission of control signals
Proskuryakov, V.A. Krijanovskiy, V.V. and control. Electronic, Information.
Torba, S.P. Syarov, V.I. Dementev, V.G. Electronic (EPE). Acoustics.
Kojevnikov, V.N. Ahramovich, A.S. Vibroacoustic, the transmission of
Romashko, V.N. Voloshin, Yu.P. Dyachenko, vibrations and sound waves. Electronic,
N.A. Ivaniuk, V.G. Kushik, A.V. Litvin, acoustic, energy. Vibroacoustic (VAPE).
Yu.A. Sud’in (Russia), S.V. Miroshnichenko Mechatronics. Mehanotronic, transfer
(Russia) V.I. Barsuk (Russia), N. motions, loads, control signals.
Duskarayev (Uzbekistan), Nguen ba Fuk Kinematic, force, energy, electronic.
(Vietnam). 3. Electromechanical (EMPE) Electronic (EPE).
4Disciples and followers. Middle 20. 20.
generation: Ph.D., docents: R.G. Redko, 21Genetic model of composition and
R.A. Skliarov, I.L. Kushil, A.V. development of the supporting system
Samoilenko, V.B. Firansky, D.A. Dmitriev, structure (on example, of elementary rigid
V.V. Guminov, P.M., Nedelcheva (Bulgaria), body in the form of a rod). Elementary
El-Rashini Husein Ali (Lebanon), El material point (mechanical gene). Genetic
Dakhabi Faruk Vakhid (Lebanon), Ramadan level. Chromosomal level. Object level.
Valid (Jordan), Khasan Al-Dabas (Jordan), Population level. Atom ( molecule).
El-Refo Ibragim Farhad (Jordan). 4. Elementary rigid rod of sided or round
5Disciples and followers. Young section. Beam with various pinch
generation: Ph.D., docents: O. Ya. (chromosome-heir of the first generation).
Yurchishin, B. I. Pridalniy. Aspirants: Genetic information. Genetic information.
K.V. Luniov, A.A. Stepanenko, P.V. Keba, Genetic information. The complexity of
O.I. Rozhko, E.A. Oleynik, A.A. Shkurenko. structures. The complexity of structures.
Applicants: M.I. Podolskiy, V.A. Nedoboi. The complexity of structures. Frame (plane
Masters: A. Shevtsov, I. Shipko, K. figure) with various pinching and number
Litovka, S. Savitsky. 5. of beams (chromosome-heir of the second
6Books about machine tools and generation). Carcass (volumetric body).
mechanisms. Aggregate-module technology 21. 21.
equipment Part 1. Aggregate-module 22Genetic model of composition and
technology equipment Part 2. development of the supporting system
Aggregate-module technology equipment Part structure (on example, of elementary rigid
3. Tooling for lathes. Processing of body in the form of a rod). Species level.
polygonal surfaces. Improving the System level. Intersystem level. Types of
efficiency of automatic lathes. Theory of frames (different body shapes). Genetic
technical systems. Cutting rods and tubes. information. Support system (combination
6. of differently shaped bodies). The
7Books about parallel kinematic complexity of structures. Construction
machines. Books about the clamping (mechanical workshop). 22. 22.
mechanisms. Types of machine tools with 23Liason between genetic and geometric
the mechanisms of parallel structure. operators of synthesis TS. Genetic
Technological equipment with parallel operators. Geometric operators.
kinematics. The clamping mechanisms for Replication (chromosome, object). Crossing
high-performance and high precision (monohybrid, dihybrid, polyhibrid).
machining. Wide-range multi-purpose Inversion (spatial, elecromarnetic).
clamping mechanisms. Self-adjusting Crossingover. Mutation (spatial,
clamping mechanisms. 7. kinematic, electromagnetic, elastic
8Books about patenting. Patenting and stress-power, material). Doubling,
copyright. Practice on the subject multiplication, broadcast, versatility,
«Patenting and copyright». 8. multi-ribal, multifaceted, multi-position,
9Main research areas. 1. Creation multiinstrumental. Spatial association
(synthesis), design, calculation and study (complete, with displacement, with the
of the clamping mechanisms and devices for rotation, and zoom; raznofigurnost;
various purposes, and clamping devices, multifunctionality). Spatial rotation of
and automatic manipulation of objects 180 ?; eversion figures on the reverse
(workpieces, tools, working tools) 2. side. Sliding parallel transport;
Creation of semi-automatic machine tools mirroring transformation antisymmetry
for the turning of crystals of natural decussation. Spatial deformation and
diamond and their holding systems. 3. The voltage scaling, change of flow, the
creation and study of cutting devices, and transformation of forms, states,
carrier systems for cutting steel. 9. properties, fields. 23.
10Main research areas. 4. The creation, 24Geometric transformation operators of
design, computation and research tools and layouts machines (carrier systems).
other technological equipment of new Parental "chromosomes" (primary
generation, including with parallel geometrical figures in the course of
kinematics. 5. The creation of desktop genetic synthesis.
machine tools, controlled by the computer "Chromosomes"-descendants
on a modular principle for educational (spatial combinations of two and more
process. 6. Creating a clamping "chromosomes").
mechanisms, and tooling for high speed and "Chromosomes"-replicators
a precision machining on lathes and (generating new forms in procedures of
milling machines. 7. A genetic approach to replication ). 24.
the creation of complex technical systems. 25«Chromosome» inversion. Single-layout.
10. Multi-layout. Variety turned chromosome
11"GENETIC PROGRAMS OF COMPLEX, structure – instrumentation systems on
EVOLUTIONARY SYSTEMS" recent mobile platforms. 25.
advances… 11. 26Drilling and milling group Patent of
12BACKGROUND FOR THE DEVELOPMENT OF Ukraine № 86533. W=6. W=6. 26. 26.
GENETIC MECHANICS. Mechanics is an ancient 27The suuport frame and tool systems
science and the first step to facilitate Drilling and milling machines with
the physical labor of man - has always configurations of parallel kinematics.
been associated with the design based on three faces. four faces. Designs are
geometric constructions. Creating new or protected by 26 patents of Ukraine. 27.
recreating a kind known, the man has 27.
always turned to geometric constructions 28The wedge assembly bench milling
(geometry, plane geometry and solid machine with a mechanism of parallel
geometry). These simple ideas from ancient structure, controlled by computer. 28. 28.
times used by the man in the intellectual, 29Lathe tools with parallel kinematics
practical, industrial and other activities ("spiders") hybrid layout. a).
in the form of genetic information, b). c). d). Designs are protected by 12
recorded in various forms (signs, patents of Ukraine. 29. 29.
pictures, books, figurines, numbers, etc.) 30Processing along the arc of a circle
transferred from one generation to the (circular interpolation). Zi. Zi. Zi. 30.
evolutionary their development and F. F. F. I. II. III. IV. I. II. III. IV.
synthesis of new TS. Stone Age people II. I. Четверти окружности. Четверти
tools represent simple forms of bodies, on окружности. Четверти окружности. C'. C.
which all subsequent inventions have C'. C'. C. C. B. B. B. B'. B'. B'. A'. A.
appeared in mechanics. The basis of the A'. A'. A. A. F. F. F. F. B. A. B. C. C.
mechanical gene as a material carrier of A, A'. C'. C. A. A'. B, B'. C'. C'. B'.
hereditary information, created by nature, A'. B'. 30. Траектория инструмента, %.
was put an material point and elementary Траектория инструмента, %. Траектория
solid body as a cylinder, parallelepiped, инструмента, %. Положение каретки на
sphere, etc. 12. направляющей. Положение каретки на
13EXAMPLES OF ELEMENTARY SOLID BODIES направляющей. Положение каретки на
AND FIGURES. Cylinder. Pipe. направляющей.
Parallelepipeds. Cone. Pyramid. Sphere. 31Cutting path of the helix. Zi. Zi. Zi.
Disk. Ring. Truncated cone. Truncated 31. F. F. F. B. A. C. A. B. A. C. B. A'.
pyramid. Cube. wedge. Square. Circle. A'. C'. C. C'. B'. B'. B'. C'. A'. 31.
Concentric circles. Triangle. Circle. Траектория инструмента, %. Траектория
Circle. Square. 13. инструмента, %. Траектория инструмента, %.
14Examples of deformed (modified) Положение каретки на направляющей.
elementary solid bodies. Oblate ellipsoid. Положение каретки на направляющей.
Sphere. Parted hyperboloid. Oblong Положение каретки на направляющей.
ellipsoid. Unparted hyperboloid. Cylinder. 32Typical schemes of milling planes.
Torus. Spiral. 14. “Loop”. “Zigzag”. 32. 32.
15EXAMPLES OF MECHANICAL LINKS. 33The domain of existence and
Mechanical link is one or several rigidly construction of a genetic model for
mounted elementary solid bodies. 15. construction of the motor-spindles. 33.
16EVOLUTION OF PARENT CHROMOSOME 33.
(MECHANICAL LINK IN THE FORM OF A 34Variant embodiment of the synthesized
CYLINDRICAL BODY) (Stone Age). VERTICAL spindle motor coaxially with the actuator
DRILLING-MILLING MACHINE. LATHE MACHINES. supply (the genetic code (ЦЛ 0.2 * Sm) *
16. 16. ЦЛ 0.2у): 17 - stepper motor supply, 11 -
17EVOLUTION OF VERTICAL DRILLING AND ball screw 23 - Fan 6 - quill, 1 -
MILLING (end of XVII c. – XX c.). Drilling spindle, 19 - rotor, 18 - stator, 8 -
and milling with a separate drive spindle Housing 13 - rotor system of the machine,
speed N of motor and driven individual 4 - tool chuck. 34.
innings sв, sпз, sпп by three coordinates 35Multi-axis drilling and milling
X,Y,Z or from separate drive from CNC machine of high mobility without
machine. Console T-shaped rod of length L mechanical transmission. 35. 35.
with a spindle bearing system a at the 36Modular desktop CNC machines. To watch
overhang and console coordinate table at the video, visit:
an altitude of b Scheme is asymmetrical. http://www.youtube.com/watch?v=wkk4zv96Dvo
Asymmetrical arrangement causes the 36.
bending strain and distortions (angles ?1, 37Our laboratory of desktop CNC
?2, ?3). 17. machines. 37.
18THE CONCEPT OF CREATING NEW GENERATION 38Thank you for your attention! With
MACHINES. Genetic principle, including : best regards, Yuri Kuznetsov and his team.
Genetic approach to classification, 38.
description of the evolution development
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