|
|
| | A23B | |
| | A23C | |
| | A23F | |
| | A23G | |
| | A23K | |
| | A23L | |
| | A23P | |
|
| | A41D | |
|
| | A43B | |
|
| | A47C | |
| | A47G | |
|
| | A61B | |
| | A61G | |
| | A61J | |
|
| | A63B | |
|
|
| | B05C | |
|
| | B09B | |
|
| M | | B31C | MAKING WOUND ARTICLES, e.g. WOUND TUBES, OF PAPER OR CARDBOARD
(
characteristics relating to the working of plastics
B29
;
shaping of plastics or substances in a plastic state
B29C
)
|
| M | | B31D | MAKING ARTICLES OF PAPER OR CARDBOARD NOT PROVIDED FOR IN SUBCLASSES B31B OR B31C (manufacture by dry processes of articles made from particles or fibres consisting of wood or other lignocellulosic or like organic material B27N; making layered products not composed wholly of paper or cardboard B32B; making cardboard or paper
D21F
,
D21H
; making articles from cellulosic fibrous suspensions, e.g. wood pulp ,
D21J) |
| M | | B31F | MECHANICAL WORKING OR DEFORMATION OF PAPER OR CARDBOARD ( cutting, trimming, in general
B26
;
incising, scoring, in general
B26D 3/08
; making layered products not composed wholly of paper or cardboard B32B
;
multi-ply material of paper or cardboard, its manufacture
D21H) |
|
| | B32B | |
|
| | B60J | |
| | B60K | |
| | B60W | |
|
| L | | B65B | MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS ; UNPACKING (bundling and pressing devices for cigars A24C 1/44; devices for tensioning and securing binders adapted to be supported by the article or articles to be bound B25B 25/00; applying closure members to bottles, jars or similar containers B67B 1/00- B67B 6/00; concurrent cleaning, filling and closing of bottles B67C 7/00; emptying bottles, jars, cans, casks, barrels or similar containers B67C 9/00) |
| | B65D | |
|
| | B82Y | |
|
|
| | C08G | |
|
| | C13K | |
|
| | C23C | |
|
|
| | E01C | |
| | E01F | |
|
| | E04H | |
|
| | E21B | |
| | E21D | |
|
|
| | F02M | |
|
| | F03D | |
|
| | F04D | |
|
| | F16C | |
| | F16J | |
|
| | F21K | |
| | F21S | |
| | F21V | |
| M | | F21W | INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K
,
F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS [7] |
| M | | F21Y | INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K
,
F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
[7] |
|
|
| | G03B | |
|
| | G06F | |
|
| M | | G07C | TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS , OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE (identification of persons , e.g. finger-printing, foot-printing,
A61B 5/117; indicating or recording apparatus for measuring in general, analogous apparatus but in which the input is not a variable to be measured, e.g. a hand operation, G01D; clocks, clock mechanisms G04B, G04C; time-interval measuring G04F; counting mechanisms per se
G06M) |
| | G07D | |
|
| | G09G | |
|
| | G21K | |
|
| M | | H | Note(s) These Notes cover the basic principles and general instructions for use of section H. - Section H covers :
- basic electric elements, which cover all electric units and the general mechanical structure of apparatus and circuits, including the assembly of various basic elements into what are called printed circuits and also cover to a certain extent the manufacture of these elements (when not covered elsewhere);
- generation of electricity, which covers the generation, conversion and distribution of electricity together with the controlling of the corresponding gear;
- applied electricity, which covers :
- general utilisation techniques, viz. those of electric heating and electric lighting circuits;
- some special utilisation techniques, either electric or electronic in the strict sense, which are not covered by other sections of the Classification, including:
- electric light sources, including lasers;
- electric X-ray technique;
- electric plasma technique and the generation and acceleration of electrically charged particles or neutrons;
- basic electronic circuits and their control;
- radio or electric communication technique;
- the use of a specified material for the manufacture of the article or element described. In this connection, paragraphs 88 to 90 of the Guide should be referred to.
- In this section, the following general rules apply:
- Subject to the exceptions stated in I(c), above, any electric aspect or part peculiar to a particular operation, process, apparatus, object or article, classified in one of the sections of the Classification other than section H, is always classified in the subclass for that operation, process, apparatus, object or article. Where common characteristics concerning technical subjects of similar nature have been brought out at class level, the electric aspect or part is classified, in conjunction with the operation, process, apparatus, object or article, in a subclass which covers entirely the general electrical applications for the technical subject in question;
- The electrical applications referred to under (a), above, either general or particular, include:
- the therapeutic processes and apparatus, in class A61;
- the electric processes and apparatus used in various laboratory or industrial operations, in classes B01 and B03 and in subclass B23K;
- the electricity supply, electric propulsion and electric lighting of vehicles in general and of particular vehicles, in the subsection "Transporting" of section B;
- the electric ignition systems of internal-combustion engines, in subclass F02P, and of combustion apparatus in general, in subclass F23Q;
- the whole electrical part of section G, i.e. measuring devices including apparatus for measuring electric variables, checking, signalling and calculating. Electricity in that section is generally dealt with as a means and not as an end in itself;
- All electrical applications, both general and particular, presuppose that the "basic electricity" aspect appears in section H (see I(a) above) as regards the electric "basic elements" which they comprise. This rule is also valid for applied electricity, referred to in I(c), above, which appears in section H itself.
- In this section, the following special cases occur:
- Among the general applications covered by sections other than section H, it is worth noting that electric heating in general is covered by subclasses F24D or F24H or class F27, and that electric lighting in general is partly covered by class F21, since in section H (see I(c), above) there are places in H05B which cover the same technical subjects;
- In the two cases referred to under (a), above, the subclasses of section F, which deal with the respective subjects, essentially cover in the first place the whole mechanical aspect of the apparatus or devices, whereas the electrical aspect, as such, is covered by subclass H05B;
- In the case of lighting, this mechanical aspect should be taken to cover the material arrangement of the various electric elements, i.e., their geometrical or physical position in relation to one another; this aspect is covered by
subclass
F21V
subclasses of class
F21, the elements themselves and the primary circuits remaining in section H. The same applies to electric light sources, when combined with light sources of a different kind. These are covered by subclass H05B, whereas the physical arrangement which their combination constitutes is covered by the various subclasses of class F21; - As regards heating, not only the electric elements and circuitry designs, as such, are covered by subclass H05B, but also the electric aspects of their arrangement, where these concern cases of general application; electric furnaces being considered as such. The physical disposition of the electric elements in furnaces is covered by section F. If a comparison is made with electric welding circuits, which are covered by subclass B23K in connection with welding, it can be seen that electric heating is not covered by the general rule stated in II, above.
|
|
| | H01F | |
| | H01M | |
| | H01T | |
|
| | H02J | |
| | H02K | |
| | H02P | |
| M | | H02P 4/00 | Arrangements specially adapted for regulating or controlling the speed or torque of electric motors that can be connected to two or more different voltage or current
electric power supplies (vector control H02P 21/00) [2006.01] |
| C | | H02P 5/00 | Arrangements specially adapted for regulating or controlling the speed or torque of two or more electric motors (
H02P 6/04
,
H02P 8/40
take precedence
)
[1,2006.01,2016.01] |
| C | | H02P 5/48 | by comparing mechanical values representing the speeds [1,2006.01,2016.01] |
| N | | H02P 5/485 | using differential movement of the two motors, e.g. using differential gearboxes [2016.01] |
| N | | H02P 5/49 | by intermittently closing or opening electrical contacts [2016.01] |
| C | | H02P 5/50 | by comparing electrical values representing the speeds [1,2006.01,2016.01] |
| N | | H02P 5/505 | using equalising lines, e.g. rotor and stator lines of first and second motors [2016.01] |
| N | | H02P 5/51 | Direct ratio control [2016.01] |
| C | | H02P 5/52 | additionally providing control of relative angular displacement [1,2006.01,2016.01] |
| N | | H02P 5/54 | Speed and position comparison between the motors by mechanical means [2016.01] |
| N | | H02P 5/56 | Speed and position comparison between the motors by electrical means [2016.01] |
| N | | H02P 6/00 | |
| C | | H02P 6/00 | Arrangements for controlling synchronous motors or other dynamo-electric motors with electronic commutators in dependence
using electronic commutation dependent on the rotor position; Electronic commutators therefor (vector control H02P 21/00) [3,4,6,2006.01,2016.01] |
| C | | H02P 6/04 | Arrangements for controlling or regulating the speed or torque of more than one motor (
H02P 6/10
takes precedence
)
[6,2006.01,2016.01] |
| C | | H02P 6/08 | Arrangements for controlling the speed or torque of a single motor (
H02P 6/10
,
H02P 6/28
take precedence
)
[6,2006.01,2016.01] |
| T | | H02P 6/10 | Arrangements for controlling torque ripple, e.g. providing reduced torque ripple; controlling torque ripple [6,2006.01] |
| C | | H02P 6/14 | Electronic commutators [6,2006.01,2016.01] |
| N | | H02P 6/15 | Controlling commutation time [2016.01] |
| C | | H02P 6/16 | Circuit arrangements for detecting position [6,2006.01,2016.01] |
| N | | H02P 6/17 | and for generating speed information [2016.01] |
| C | | H02P 6/18 | without separate position detecting element, e.g. using back-emf in windings
elements
[6,2006.01,2016.01] |
| N | | H02P 6/182 | using back-emf in windings [2016.01] |
| N | | H02P 6/185 | using inductance sensing, e.g. pulse excitation [2016.01] |
| C | | H02P 6/20 | Arrangements for starting ( H02P 6/08
,
H02P 6/22
take
takes precedence) [6,2006.01,2016.01] |
| N | | H02P 6/21 | Open loop start [2016.01] |
| M | | H02P 6/22 | Arrangements for starting in a selected direction of rotation [6,2006.01]
|
| N | | H02P 6/26 | Arrangements for controlling single phase motors [2016.01] |
| N | | H02P 6/28 | Arrangements for controlling current ( H02P 6/10 takes precedence) [2016.01] |
| N | | H02P 6/30 | Arrangements for controlling the direction of rotation ( H02P 6/22 takes precedence) [2016.01] |
| N | | H02P 6/32 | Arrangements for controlling wound field motors, e.g. motors with exciter coils [2016.01] |
| N | | H02P 6/34 | Modelling or simulation for control purposes [2016.01] |
| C | | H02P 7/00 | Arrangements for regulating or controlling the speed or torque of electric dc-
DC motors [1,2,2006.01,2016.01] |
| N | | H02P 7/02 | the DC motors being of the linear type [2016.01] |
| N | | H02P 7/025 | the DC motors being of the moving coil type, e.g. voice coil motors [2016.01] |
| N | | H02P 7/03 | for controlling the direction of rotation of DC motors [2016.01] |
| C | | H02P 7/28 | using semiconductor devices [1,2006.01,2016.01] |
| N | | H02P 7/281 | |
| N | | H02P 7/281 | the DC motor being operated in four quadrants [2016.01] |
| C | | H02P 7/282 | controlling field supply only [4,2006.01,2016.01] |
| C | | H02P 7/285 | controlling armature supply only [4,2006.01,2016.01] |
| C | | H02P 7/288 | using variable impedance [4,2006.01,2016.01] |
| C | | H02P 7/29 | using pulse modulation [4,2006.01,2016.01] |
| N | | H02P 7/291 | with on-off control between two set points, e.g. controlling by hysteresis [2016.01] |
| C | | H02P 7/292 | using static converters, e.g. ac
AC to dc
DC
[4,2006.01,2016.01] |
| N | | H02P 7/293 | using phase control ( H02P 7/295 takes precedence) [2016.01] |
| C | | H02P 7/295 | of the kind having one thyristor or the like in series with the power supply and the motor [4,2006.01,2016.01] |
| C | | H02P 7/298 | controlling armature and field supply
supplies
[4,2006.01,2016.01] |
| C | | H02P 7/34 | using Ward-Leonard arrangements [1,2006.01,2016.01] |
| N | | H02P 7/343 | in which both generator and motor fields are controlled [2016.01] |
| N | | H02P 7/347 | in which only the generator field is controlled [2016.01] |
| T | | H02P 8/36 | Protection against faults, e.g. against overheating or step-out; Indicating faults [6,2006.01] |
| T | | H02P 8/40 | Special adaptations for controlling two or more stepping motors [6,2006.01] |
| M | | H02P 21/00 | Note(s) [2006.01,2016.01] - When classifying in this group,
it
is desirable to also classify in groups H02P 25/00-H02P 27/00 if the kind of ac-motor, structural details, or the - classification should also be made in group H02P 25/00 when the method of control is characterised by the kind of motor being controlled.
- When classifying in this group, classification should also be made in group H02P 27/00 when the method of control is characterised by the kind of supply voltage
are of interestthe motor being controlled.
|
| C | | H02P 21/00 | Arrangements or methods for the control of electric machines by vector control, e.g. by control of field orientation [6,2006.01,2016.01] |
| C | | H02P 21/06 | Rotor flux based control involving the use of rotor position or rotor speed sensors
[2006.01,2016.01] |
| C | | H02P 21/08 | Indirect field-oriented control, e.g. field phase angle calculation based on rotor voltage equation by adding slip frequency and speed proportional frequency
;
Rotor flux feed-forward control
[2006.01,2016.01] |
| N | | H02P 21/09 | Field phase angle calculation based on rotor voltage equation by adding slip frequency and speed proportional frequency [2016.01] |
| C | | H02P 21/10 | Direct field-oriented control;
Rotor flux feed-back control
[2006.01,2016.01] |
| C | | H02P 21/12 | Stator flux based control involving the use of rotor position or rotor speed sensors
[2006.01,2016.01] |
| C | | H02P 21/14 | Estimation or adaptation of machine parameters, e.g. rotor time constant, flux, speed, current or voltage [2006.01,2016.01] |
| N | | H02P 21/16 | Estimation of constants, e.g. the rotor time constant [2016.01] |
| N | | H02P 21/18 | Estimation of position or speed [2016.01] |
| N | | H02P 21/20 | Estimation of torque [2016.01] |
| N | | H02P 21/22 | Current control, e.g. using a current control loop [2016.01] |
| N | | H02P 21/24 | Vector control not involving the use of rotor position or rotor speed sensors [2016.01] |
| N | | H02P 21/26 | Rotor flux based control [2016.01] |
| N | | H02P 21/28 | Stator flux based control [2016.01] |
| N | | H02P 21/30 | Direct torque control [DTC] or field acceleration method [FAM] [2016.01] |
| N | | H02P 21/32 | Determining the initial rotor position ( H02P 21/34 takes precedence) [2016.01] |
| N | | H02P 21/34 | Arrangements for starting [2016.01] |
| N | | H02P 21/36 | Arrangements for braking or slowing; Four quadrant control [2016.01] |
| M | | H02P 23/00 | Note(s) [2006.01] When classifying in this group, it is desirable to also classify in groups
H02P 25/00-H02P 27/00
if the kind of ac-motor, structural details, or the kind of supply voltage are of interest
subject matter also relating to groups
H02P 21/00
,
H02P 25/00
or
H02P 27/00
is further classified in those groups whenever appropriate. |
| C | | H02P 23/00 | Arrangements or methods for the control of ac-
AC motors characterised by a control method other than vector control [2006.01,2016.01] |
| C | | H02P 23/06 | Controlling the motor in four quadrants [2006.01,2016.01] |
| N | | H02P 23/07 | Polyphase or monophase asynchronous induction motors [2016.01] |
| N | | H02P 23/16 | Controlling the angular speed of one shaft ( H02P 23/18 takes precedence) [2016.01] |
| N | | H02P 23/18 | Controlling the angular speed together with angular position or phase [2016.01] |
| N | | H02P 23/20 | Controlling the acceleration or deceleration [2016.01] |
| N | | H02P 23/22 | Controlling the speed digitally using a reference oscillator, a speed proportional pulse rate feedback and a digital comparator [2016.01] |
| N | | H02P 23/24 | Controlling the direction, e.g. clockwise or counterclockwise [2016.01] |
| N | | H02P 23/26 | Power factor control [PFC] [2016.01] |
| N | | H02P 23/28 | Controlling the motor by varying the switching frequency of switches connected to a DC supply and the motor phases [2016.01] |
| N | | H02P 23/30 | Direct torque control [DTC] or field acceleration method [FAM] [2016.01] |
| M | | H02P 25/00 | Note(s) [2006.01] When classifying in this group, it is desirable to also classify in
subject matter also relating to groups H02P 21/00, H02P 23/00 or H02P 27/00
if the control method or the kind of supply voltage are of interest
is further classified in those groups whenever appropriate. |
| M | | H02P 25/00 | Arrangements or methods for the control of ac-
AC motors characterised by the kind of ac-
AC motor or by structural details [2006.01] |
| C | | H02P 25/02 | characterised by the kind of motor [2006.01,2016.01] |
| N | | H02P 25/022 | Synchronous motors ( H02P 25/064 takes precedence) [2016.01] |
| N | | H02P 25/024 | controlled by supply frequency [2016.01] |
| N | | H02P 25/026 | thereby detecting the rotor position [2016.01] |
| N | | H02P 25/028 | with four quadrant control [2016.01] |
| N | | H02P 25/03 | with brushless excitation [2016.01] |
| N | | H02P 25/032 | Reciprocating, oscillating or vibrating motors [2016.01] |
| N | | H02P 25/034 | Voice coil motors (voice coil motors driven by DC H02P 7/025 ) [2016.01] |
| C | | H02P 25/06 | Linear motors [2006.01,2016.01] |
| N | | H02P 25/062 | of the induction type [2016.01] |
| N | | H02P 25/064 | of the synchronous type [2016.01] |
| N | | H02P 25/066 | of the stepping type [2016.01] |
| C | | H02P 25/08 | Reluctance motors [2006.01,2016.01] |
| N | | H02P 25/083 | Arrangements for increasing the switching speed from one coil to the next one [2016.01] |
| N | | H02P 25/086 | |
| N | | H02P 25/089 | Sensorless control (direct torque control H02P 23/30 ) [2016.01] |
| N | | H02P 25/092 | Converters specially adapted for controlling reluctance motors [2016.01] |
| N | | H02P 25/098 | Arrangements for reducing torque ripple [2016.01] |
| M | | H02P 27/00 | Note(s) [2006.01] When classifying in this group, it is desirable to also classify in
subject matter also relating to groups H02P 21/00, H02P 23/00 or H02P 25/00
if the control method, the kind of the ac-motor or structural details are of interest
is further classified in those groups whenever appropriate. |
| M | | H02P 27/00 | Arrangements or methods for the control of ac-
AC motors characterised by the kind of supply voltage (of two or more motors H02P 5/00; of synchronous motors with electronic commutators H02P 6/00; of dc-
DC motors H02P 7/00; of stepping motors H02P 8/00) [2006.01] |
| C | | H02P 27/02 | using supply voltage with constant frequency and variable amplitude [2006.01,2016.01] |
| N | | H02P 27/024 | using AC supply for only the rotor circuit or only the stator circuit [2016.01] |
| C | | H02P 27/04 | using variable-frequency supply voltage, e.g. inverter or converter supply voltage [2006.01,2016.01] |
| N | | H02P 27/048 | using AC supply for only the rotor circuit or only the stator circuit [2016.01] |
| M | | H02P 27/05 | using ac
AC supply for both the rotor and the stator circuits, the frequency of supply to at least one circuit being variable [2006.01] |
| M | | H02P 27/12 | pulsing by guiding the flux -
vector, current -,
vector or voltage - vector on a circle or a closed curve, e.g. for direct torque control [2006.01] |
| C | | H02P 29/00 | Arrangements for regulating or controlling electric motors, appropriate for both ac-
AC and dc-
DC motors ( arrangements for starting electric motors
H02P 1/00
;
arrangements for stopping or slowing electric motors
H02P 3/00
; control of motors that can be connected to two or more different voltage or current
electric power supplies H02P 4/00; regulating or controlling the speed or torque of two or more electric motors
H02P 5/00
; vector control H02P 21/00) [2006.01,2016.01] |
| C | | H02P 29/02 | Providing protection against overload without automatic interruption of supply , e.g. monitoring
(
protection against faults of stepper motors
H02P 8/36
)
[2006.01,2016.01] |
| N | | H02P 29/024 | Detecting a fault condition, e.g. short circuit, locked rotor, open circuit or loss of load [2016.01] |
| N | | H02P 29/028 | the motor continuing operation despite the fault condition, e.g. eliminating, compensating for or remedying the fault [2016.01] |
| N | | H02P 29/032 | Preventing damage to the motor, e.g. setting individual current limits for different drive conditions [2016.01] |
| N | | H02P 29/10 | for preventing overspeed or under speed [2016.01] |
| N | | H02P 29/20 | for controlling one motor used for different sequential operations [2016.01] |
| N | | H02P 29/40 | Regulating or controlling the amount of current drawn or delivered by the motor for controlling the mechanical load [2016.01] |
| N | | H02P 29/50 | Reduction of harmonics [2016.01] |
| N | | H02P 29/60 | Controlling or determining the temperature of the motor or of the drive ( H02P 29/02 takes precedence) [2016.01] |
| N | | H02P 29/62 | for raising the temperature of the motor [2016.01] |
| N | | H02P 29/64 | Controlling or determining the temperature of the winding [2016.01] |
| N | | H02P 29/66 | Controlling or determining the temperature of the rotor [2016.01] |
| N | | H02P 29/68 | based on the temperature of a drive component or a semiconductor component [2016.01] |
|
| | H04M | |
| | H04N | |
