CN86106227A - The wound rotor asynchronous motor of started with no brush - Google Patents
The wound rotor asynchronous motor of started with no brush Download PDFInfo
- Publication number
- CN86106227A CN86106227A CN86106227.2A CN86106227A CN86106227A CN 86106227 A CN86106227 A CN 86106227A CN 86106227 A CN86106227 A CN 86106227A CN 86106227 A CN86106227 A CN 86106227A
- Authority
- CN
- China
- Prior art keywords
- rotor
- motor
- triggering
- brush
- loop
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Images
Landscapes
- Motor And Converter Starters (AREA)
- Control Of Ac Motors In General (AREA)
Abstract
The invention belongs to the starting equipment of winding type asynchronous engine.It is that the slip ring and the brush of conventional wound rotor asynchronous motor are taken away, and controller is loaded on existing motor has taken away on the axle of brush and slip ring end, makes motor not need slave to carry out artificial control outward, the starting of directly closing a floodgate.It is simple in structure, and is easy to maintenance, is easy to fire-proof and explosion-proofly, and one-time investment can save 1/2~3/4.
Description
The invention belongs to the starting equipment of wound rotor asynchronous motor.
The starting of wound rotor asynchronous motor needs to install slip ring for a long time, brush, short-circuited conducting sleeve, cable, contactor, relay, auxiliary devices such as resistor or frequency sensitive trheostat.Must be with the sliding contact of rotor current through slip ring and brush, guide to resistor with cable again or frequency sensitive trheostat gets on, by increasing the real component of rotor current, slave is outer artificially changes its mechanical property by control appliance, to increase its starting torque.Its complicated operation in service, accident-proneness, maintenance capacity be big, it is explosion-proof to be difficult for, and the one-time investment of starting equipment is bigger.Though once the someone attempted frequency sensitive trheostat is contained in the shaft extension end that takes down brush and slip ring, and after receiving on the frequency sensitive trheostat, realize the no slip ring operation of this type motor to the lead-out wire of rotor.The result has promptly increased the moment of inertia of rotor because the frequency sensitive trheostat that is contained on the axle is too heavy, has increased the weight of the burden of bearing again, and the starting and the braking of returning motor have brought difficulty.Especially at the end, not to rotor loop direct short-circuit, the mechanical property during stable operation is softer in starting process.
The purpose of this invention is to provide a kind of wound rotor asynchronous motor that makes wound rotor asynchronous motor not adorn the started with no brush of the outer auxiliary devices such as cable, contactor, relay, resistor or frequency sensitive trheostat of slip ring, brush, short-circuited conducting sleeve and machine.
The present invention is after a brush of conventional wound rotor asynchronous motor and slip ring are taken away, the controller of development is loaded on the axle of existing motor sliding ring end, after again the three-phase current of rotor leading-out wire being connected to the three-phase half control rectifier bridge of controller and triggering the loop controlled rectification, constituted the path (seeing accompanying drawing) of rotor loop through smoothing reactor; The controller that is made of the semiconductor device operation that rotates with the axis has good radiating condition.After the starting task of having finished motor, because the action of centrifugal short-circuit switch on the controller, can be with the lead-out wire direct short-circuit of rotor, whole circuit of three-phase half controlled bridge have promptly withdrawed from work, can make motor keep intrinsic mechanical property.(also available KLD short circuit KG
1-3The triggering loop, approximate keep intrinsic mechanical property).
Adopt wound rotor asynchronous motor of the present invention, do not need slave to carry out artificial control outward after the startup, can under the condition that guarantees the wound rotor asynchronous motor mechanical property,, directly close a floodgate and start as started squirrel-cage type motor.
Adopt wound rotor asynchronous motor of the present invention, inside and outside a whole set of starting equipment of its machine, be concentrated after the all-in-one-piece small controller is contained on the motor shaft that takes down slip ring, the one-time investment of its starting equipment can save 1/2 to 3/4, because starting process does not have the sliding contact of big current flowing, electric spark and friction loss between slip ring and brush have been eliminated completely, generation that can the minimizing accident.This starting device is simple in structure, and the components and parts of use are less, it is easy to maintenance to have, it is explosion-proof to be easy to, save raw material such as non-ferrous metal, save the construction area of starting equipment, can generate electricity when discharging the potential load, is beneficial to energy-conservation.
Accompanying drawing is a controller circuitry key wiring diagram of the present invention.D is a wound rotor asynchronous motor among the figure, a, b, c, is the lead-out wire of this rotor.Controller of the present invention mainly is by the thyristor KG that constitutes three-phase half control rectifier bridge
1~3, silicon rectifier cell GZ
1~3Smoothing reactor PB and fly-wheel diode GZ thereof
0Form.KLD among the figure is a centrifugal short-circuit switch, C
1~6, D
1~6, R
1~6Be that three-phase half control rectifier bridge triggers loop and resistance-capacitance protection element, XCKB
1~3Be rotary triggering control transformer.
The circuit of accompanying drawing is one embodiment of the present of invention.Rotary triggering control transformer XCKB among the figure
1~3Be critical piece of the present invention, it can adaptive change thyristor KG
1~3Pilot angle α, thereby can be closely with the transient process of finishing the frequency sensitive trheostat actuating motor.
After motor closes a floodgate starting, because motor begins raising speed from inactive state, rotary triggering control transformer XCKB in the controller
1~3Original edge voltage equal the electromotive force of rotor.That is:
E
2=4.44f
2w
2Kw
2φm(1)
Because starting moment f
2=f
1So,
E
2=4.44f
1w
2Kw
2φm(2)
Rotary triggering control transformer XCKB
1~3Former limit be the Y wiring, and directly be connected with the lead-out wire of rotor.By formula (2) as can be known, motor is in starting moment and first rotational phase, and the electromotive force of voltage that bear on the former limit of rotary triggering control transformer and pair limit induction all is higher.Because it is by the every loop of triggering mutually of being connected to of the opposite direction correspondence of rotor voltage that rotary triggering control transformer is paid the limit electromotive force, pair limit electromotive force that starting this three-phase of moment is higher, be equivalent in three-phase triggering loop, demonstrate bigger resistance, certainly lead to bigger voltage drop triggering the loop.Therefore, in electric motor starting moment and first rotational phase, be equivalent to thyristor KG
1~3Provided bigger pilot angle.
Calculated resistance with the wound rotor asynchronous motor rotor loop of three-phase half control rectifier bridge control is
R
j= (2r
2)/(1+COSα)
In the formula: r
2Be the wound rotor asynchronous motor rotor resistance;
α is the pilot angle of thyristor.
By formula (1) and (2) as seen, the rotor electromotive force of motor in starting process is with rotor frequency f
2Decline and descend, so rotary triggering control transformer is paid the limit to triggering the resistance value that the loop shows, also will the increase with the motor revolution constantly reduce in starting process.Because the minimizing of control loop resistance value can cause diminishing of thyristor pilot angle α, according to formula (3) as seen, diminishing of α will inevitably cause diminishing of rotor loop calculated resistance.So motor will adaptively be finished the transient process of its starting after starting.
According to the principle of Electrical Motor as can be known, if the ohmic value of Rj is equated with the ohmic value of the total reactance of motor stator and rotor, motor will produce maximum starting changes short; Producing maximum starting according to motor changes short needs and has determined after the Rj, again in conjunction with known rotor resistance, (the pilot angle α of thyristor during electric motor starting can be by adjusting R for pilot angle α that should be given to thyristor in the time of then can having determined electric motor starting by formula (3)
1~3Resistance and select rotary triggering control transformer XCKB
1~3No-load voltage ratio determine).
According to preceding described, the α angle in the formula (3) can progressively diminish because of the rising of motor revolution.When α=0, Rj ≈ r then
2This shows that in the starting process of motor, its mechanical characteristic will progressively be put down by abrupt change, the mechanical property of motor will progressively change software strategy into software-hardware strategy.Near starting at the end, centrifugal short-circuit switch because of the vertical motion of motor revolution after, will be rotor leading-out wire direct short-circuit, the transient process that this has just simulated the frequency sensitive trheostat actuating motor has reached the purpose of started with no brush wound rotor asynchronous motor.
Claims (3)
1, a kind of wound rotor asynchronous motor of started with no brush, it is characterized in that it is that the slip ring of common wound rotor asynchronous motor and brush are taken away, controller is loaded on the axle of motor sliding ring end, after again the triphasic potential of rotor leading-out wire being connected to the three-phase half control rectifier bridge of controller and triggering the loop controlled rectification, constituted the path of rotor loop through smoothing reactor.
2, according to the described asynchronous motor of claim 1, it is characterized in that said controller comprises rotary triggering control transformer XCKB1~3, smoothing reactor PB and fly-wheel diode GZO thereof, centrifugal short-circuit switch KLD, diode D1~6 in three-phase half control rectifier bridge KG1~3, GZ1~3 and triggering loop thereof and Resistor-Capacitor Unit R1~6, C1~6.
3, according to claim 1,2 described asynchronous motors, it is characterized in that the former limit of said rotary triggering control transformer, directly be connected with rotor leading-out wire; Pair limit electromotive force of rotary triggering control transformer is to be connected to every the triggering in the loop mutually accordingly by the opposite direction of rotor voltage.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 86106227 CN1007949B (en) | 1986-09-04 | 1986-09-04 | Wound rotor asynchronous motor started with no brush |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 86106227 CN1007949B (en) | 1986-09-04 | 1986-09-04 | Wound rotor asynchronous motor started with no brush |
Publications (2)
Publication Number | Publication Date |
---|---|
CN86106227A true CN86106227A (en) | 1988-03-23 |
CN1007949B CN1007949B (en) | 1990-05-09 |
Family
ID=4803124
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 86106227 Expired CN1007949B (en) | 1986-09-04 | 1986-09-04 | Wound rotor asynchronous motor started with no brush |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN1007949B (en) |
-
1986
- 1986-09-04 CN CN 86106227 patent/CN1007949B/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
CN1007949B (en) | 1990-05-09 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4426606A (en) | Emergency stop device for brushless motors | |
US5525894A (en) | Rotary induction generator adapted to be driven by a prime mover for generating electric power | |
US4656413A (en) | Stabilized control system and method for coupling an induction generator to AC power mains | |
CN102088272A (en) | 10kV digital high-voltage stator variable voltage control device | |
CN86106227A (en) | The wound rotor asynchronous motor of started with no brush | |
CN201550077U (en) | 10kV digital high-voltage stator voltage-regulating and speed-regulating device | |
EP0653118A1 (en) | Rotating induction generator adapted to be driven by a prime mover for generating electrical power. | |
JP2524575B2 (en) | Braking device for variable speed generator motor in variable speed pumped storage generator | |
CN108306471A (en) | A kind of threephase asynchronous machine winding construction | |
EP0243154B1 (en) | Parallel resonant single phase motor | |
JP3044894B2 (en) | Windmill generator | |
CN213342065U (en) | Motor rotating speed control circuit | |
SU1112498A2 (en) | Asynchronous single-phase motor | |
Oguchi et al. | Speed control of a brushless static Kramer system | |
CN2128801Y (en) | Stepless speed regulating squirrel-cage motor | |
EP0442848B1 (en) | Variable-speed AC drive utilizing a short-circuit-rotor polyphase induction motor | |
SU1270863A1 (en) | Two-motor electric drive | |
EP1659674A1 (en) | Electrical machine | |
CN86105950A (en) | Electronic rheostat squirrel-cage motor with high starting moment | |
SU613469A1 (en) | Device for dynamic braking of induction motor with phase-wound rotor | |
SU1339846A1 (en) | Squirrel-cage induction motor with controlled starting and braking | |
SU658687A1 (en) | Method of starting twin-motor asynchronous machine-power-diode cascade | |
JPH0145277Y2 (en) | ||
RU2076420C1 (en) | Induction generator protective device | |
CN2186440Y (en) | Overload-current phase-loss relay of triphase alternating |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C06 | Publication | ||
PB01 | Publication | ||
C13 | Decision | ||
C14 | Grant of patent or utility model | ||
C19 | Lapse of patent right due to non-payment of the annual fee |