WO2019050382A2 - 다중브러시와 분배기를 이용한 ac 또는 dc 발전장치 - Google Patents
다중브러시와 분배기를 이용한 ac 또는 dc 발전장치 Download PDFInfo
- Publication number
- WO2019050382A2 WO2019050382A2 PCT/KR2018/010648 KR2018010648W WO2019050382A2 WO 2019050382 A2 WO2019050382 A2 WO 2019050382A2 KR 2018010648 W KR2018010648 W KR 2018010648W WO 2019050382 A2 WO2019050382 A2 WO 2019050382A2
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- WO
- WIPO (PCT)
- Prior art keywords
- holder
- commutator
- power
- brushes
- coil
- Prior art date
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K13/00—Structural associations of current collectors with motors or generators, e.g. brush mounting plates or connections to windings; Disposition of current collectors in motors or generators; Arrangements for improving commutation
- H02K13/006—Structural associations of commutators
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K13/00—Structural associations of current collectors with motors or generators, e.g. brush mounting plates or connections to windings; Disposition of current collectors in motors or generators; Arrangements for improving commutation
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K5/00—Casings; Enclosures; Supports
- H02K5/04—Casings or enclosures characterised by the shape, form or construction thereof
- H02K5/14—Means for supporting or protecting brushes or brush holders
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K5/00—Casings; Enclosures; Supports
- H02K5/04—Casings or enclosures characterised by the shape, form or construction thereof
- H02K5/14—Means for supporting or protecting brushes or brush holders
- H02K5/143—Means for supporting or protecting brushes or brush holders for cooperation with commutators
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K7/00—Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
- H02K7/18—Structural association of electric generators with mechanical driving motors, e.g. with turbines
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K7/00—Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
- H02K7/18—Structural association of electric generators with mechanical driving motors, e.g. with turbines
- H02K7/1807—Rotary generators
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K7/00—Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
- H02K7/20—Structural association with auxiliary dynamo-electric machines, e.g. with electric starter motors or exciters
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K9/00—Arrangements for cooling or ventilating
- H02K9/02—Arrangements for cooling or ventilating by ambient air flowing through the machine
- H02K9/04—Arrangements for cooling or ventilating by ambient air flowing through the machine having means for generating a flow of cooling medium
- H02K9/06—Arrangements for cooling or ventilating by ambient air flowing through the machine having means for generating a flow of cooling medium with fans or impellers driven by the machine shaft
Definitions
- the present invention relates to a power generator capable of converting AC or DC using a multiple brush and a distributor,
- a field and a commutator coupled to a fixed shaft rotated by a conventional generator is fixed, and a commutator brush holder having three pairs of commutator brushes is rotated.
- the commutator brush holder since the commutator brush holder must supply a current to the commutator element, it has devised a slip disk terminal as a transmission medium.
- three pairs of circuits are provided on one side of the slip disk terminal, starting from a positive (+) current starting point of 0 ° and a minus (-) current starting point of 180 °, each having a phase difference of 120 ° and maintaining a phase difference of 120 ° Pairs of DC brushes are formed on the other side by forming the same phase difference with the one pair of DC supply circuits and connected to each other.
- an AC distributor or a DC distributor having a three-pair distributor or a three-line distributing circuit on one side of the commutator brush holder so as to rotate in synchronism with the three pairs of disk brushes has been devised.
- the slip disk terminal is designed to be used for both the alternating current power generation device and the direct current generation device
- the three-pair distribution circuit can be used for the alternating current power generation device
- the three line distribution circuit is used for the direct current generation device Respectively.
- the power generation apparatus of the present invention requires a DC motor for rotating the commutator brush holder, and a battery for supplying power to the DC motor is provided.
- the pair of DC supply circuits receives the DC current from the battery
- the three AC brushes are passed through the three AC brushes through the AC distributor or the DC distributor corresponding to the three pairs of disk brushes
- a magnetic force having a polarity opposite to that of the field iron core is applied to the armature coil wound around the field iron core so as to correspond to the field iron core by repeating the short circuit and connection of the DC current, To a desired AC or DC by being induced in an alternating manner.
- a conventional generator includes a rotor, a stator formed outside the rotor, and a housing surrounding the stator. When the rotor rotates, the rotor rotates, The magnetic flux from the magnet causes the current to flow in the stator coil while interacting with the stator coil.
- the voltage characteristic of the conventional generator increases the rotational speed of the rotor or the electromotive force generated when the number of the field coils is increased, and that the induction voltage rises as the magnetic flux change of the coil becomes faster It is noted that the induced voltage rises as the point, rotation speed and excited current increase,
- the conventional slip ring is replaced And the electromotive force of each phase from the 0 field to the field of 180 degrees assuming that the field magnetic flux of the field core 141 is in the range of 0 to 6 o'clock assumed to be the 12 o'clock direction
- the one pair of DC supply circuits are formed on one side and connected to the other side while the three pairs of disk brushes are circled in phase by 120 degrees in each of the three lanes,
- the molded slip disk terminal was devised, and the three-pair wobble circuit or the three-line distribution circuit were maintained at a phase difference of 120 [deg.] In each of three lanes, and were short- Molded bristle
- the present invention relates to an AC distributor and a DC distributor which are connected to the three pairs of commutator brushes as a connection line to repeat the disconnection or connection of currents.
- a conventional generator In order to generate a current, a conventional generator has to forcibly rotate the rotor and the commutator by a power source so as to rotate the rotor and the commutator having a very heavy weight It has a disadvantage that the efficiency due to friction and other factors is low as well as a waste of the required power energy.
- the present invention fixes a conventional shaft by using a method in which both the rotor and the commutator are not rotated.
- a field provided with the field iron core and each of the field coils is formed on the outer surface of the fixed shaft
- an armature having an armature core and an armature coil is provided outside the armature in correspondence with the field.
- the commutator formed with the commutator element is fixedly coupled to one end of the high clearance shaft.
- the center of the slip disk terminal which is supplied with power from the battery, is hollowly formed on the stationary shaft to penetrate the stationary shaft, and the rim is coupled to the power housing.
- the alternating current holder or the direct current holder is coupled to the outside of the commutator
- the AC holder or the DC holder has the AC distributor or the DC distributor formed on one side thereof, the inner side has the three pairs of commutator brushes, and the other side has the brush holder L / R .
- the brush holder R is fixed to the fixed shaft and rotated by a DC motor so that the inner circumferential surface thereof can be inserted into the hollow shaft so that the shaft can be inserted.
- the brush holder bracket L is slidably engaged with the outer circumferential surface of the coil inlet / .
- the air blades are fixedly coupled to the DC motor rotating shaft in the direction of the commutator.
- (+) And a cathode (-) are connected to the DC motor and the pair of DC supply circuits of the slip disk terminal.
- the present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a field rotor in which the field coil can be generated only by rotating the rotary shaft And the commutator is formed into a wedge-shaped commutator element insulated from each other.
- the AC holder or the DC holder is formed of a hollow cylinder and the three pairs of commutator brushes protrude from three lanes each inwardly, and the three pairs of commutator brushes are separated from each other So that they are in close contact with each other internally.
- the field coil and the commutator element are connected by a coil connecting line, respectively.
- An electromotive force of each phase is generated in a field of 180 degrees assuming that the total field flux of the field iron core 141 is in the range of 0 to 6 o'clock assumed to be the 12 o'clock direction Pair DC supply circuit formed by phase-shifting by 120 degrees in three lanes respectively, and the slip disk terminal having the three pairs of disk brushes on both sides thereof.
- the three-pair distribution circuit is configured on one side of the AC distributor, and the three-line distribution circuit is configured on one side of the DC distributor.
- the three pairs of commutator brushes provided inside the AC holder or the DC holder are connected to the AC distributor or the DC distributor by a brush connection line so that DC is supplied to the field coil through the connection with the commutator element
- the three-phase alternating-current circuit or the three-line distributing circuit sequentially induces the magnetomotive force to each of the field-strengthening cores so that the armature coils corresponding to the field- Electromagnetic force is sequentially induced so that an electromotive force is generated while repeating generation and disappearance of electromagnetic force in the armature coil.
- the power generation section and the power generation section are distinguished.
- the power generation unit couples the generator, the generator DC motor, and the power generation unit cooling fan, which are formed on the outer periphery of the field and the field provided on the outer circumferential surface of the fixed shaft, to the power generation unit housing.
- the power unit includes the commutator provided on the outer circumferential surface of the fixed shaft, the commutator brush holder provided on the outer periphery of the commutator, the distributor provided on the outer periphery of the commutator brush holder, the DC motor and the pulley blade, Lt; / RTI >
- the power generation apparatus may be integrally connected to the power section and the power generation section in series, and the present invention may also be applied to the power generation section as shown in FIGS. 10, 12,
- the power generation unit and the battery can be installed separately in a separate place by using the power generation unit housing, and the power generation unit and the storage battery can be installed separately from each other with the power unit, A pulley, a blade, and the like are coupled to the power housing and installed separately.
- the present invention is characterized in that the slip disk terminal having the pair of direct current supply circuits and the three pairs of disk brushes formed on both sides thereof and the AC distributor having the three pair distributing circuit on one side or the three-
- the DC power distributor and the AC holder or the DC holder having the three pairs of commutator brushes are used to cut off or connect the currents to minimize the supply of external energy to the power generator, It is a very useful generator that can provide.
- the field and the commutator are not rotated by reducing the external rotational power to obtain high-efficiency direct current, and one side is slip-fitted to the fixed shaft end, And the AC holder or the DC holder is lightly rotated by the DC motor to prevent external power and energy from being wasted, and the three-phase induction electromotive force is generated in the armature coil
- a power device such as a rotor wheel, a magnetic power rotor, or a turbine may be substituted for all the industrial power generators Can also be used.
- FIG. 1 is a block diagram and a perspective view of a slip disk terminal of the present invention
- Fig. 2 is a structural view and a perspective view of the AC holder of the present invention
- Fig. 3 is a structural view and a perspective view of the holder for direct current of the present invention
- FIG. 4 is a schematic view and a perspective view of the commutator holder bracket L of the present invention
- FIG. 5 is a schematic view and a perspective view of the commutator holder bracket R of the present invention
- FIG. 6 is a schematic configuration diagram of the alternating current power generation apparatus of the present invention
- Fig. 7 is a schematic configuration diagram of a direct current power generation device of the present invention
- Fig. 8 is a perspective view of the coil outlet guard of the present invention combined with the power housing side plate L. Fig.
- FIG. 11 Schematic integrated configuration diagram using the pulley drive of the present invention
- Fig. 13 is a schematic diagram of the integral structure using the blade driving of the present invention.
- FIG. 14 Schematic detachable configuration diagram using blade drive of the present invention
- the DC motor 2 including the DC motor rotation shaft 101, the rotor 21, and the stator 22 of the power generation apparatus 1 is connected to the power source And is coupled to the inside of the housing 170.
- the power generating unit blowing motor 11 and the power generating unit cooling fan 12 are coupled to the power generating unit housing 13 to cool the field 140 and the armature 150 .
- the field magnet 140 and the commutator 110 are fixed and penetrate the central portion of the slip disk terminal 116 and a part of the AC holder 112A or the DC holder 112B and a slip
- the fixed shaft 100 is engaged.
- the field 140 in which the field coils 142 are wound is coupled to the field core 141 of the power generator 1 in the power generator housing 13.
- the armature 150 including the armature core 151 and the armature coil 152 in a state of being spaced apart from the outer periphery of the field coil 142 of the power generator 1, ).
- the commutator 110 includes a plurality of commutator segments 111 connected at one end of the fixed shaft 100 by a coil connecting line 143 corresponding to the field coil 142, do.
- the three-pair decubator 115A rotates counter to the three pairs of disk brushes 117, and the three-line distributor circuit 115B rotates in synchronization with the three pairs of disk brushes 117.
- three pairs of commutator brushes 113 are provided on the inner inner surface, one side is coupled to the brush holder L (119L) and the other side is connected to the brush holder R (119R (112A) fixedly coupled to the DC motor rotating shaft (101) to closely contact the outer circumferential surface of the commutator element (111) and rotate.
- the DC brushless motor according to claim 1, And a DC cylindrical holder 112B fixedly coupled with the outer circumferential surface of the commutator element 111 to rotate in close contact with the outer circumferential surface of the commutator element 111.
- the three-twin treble circuit 115A or the three-line distribution circuit 115B maintains a phase difference of 120 ° in each of the three lanes so as to rotate in correspondence with the three pairs of disc brushes 117 And is formed by one lane each with a short circuit at intervals of 180 degrees and connected to the three pairs of commutator brushes 113 by a brush connecting line 113a to repeat supply and cutoff of currents, (114A).
- the three-twin treble circuit 115A or the three-line distribution circuit 115B maintains a phase difference of 120 ° in each of the three lanes so as to rotate in correspondence with the three pairs of disc brushes 117 Shaped DC distributor (not shown) which is formed by a lane by a continuous circuit of intervals of 180 ° and is connected to the three pairs of commutator brushes 113 by the brush connecting line 113a so as to repeat the supply of current 114B.
- three pairs of brushes are maintained at 0 ° and 180 °, respectively, and 120 ° in three lanes at intervals of 120 °.
- three pairs of commutator brushes 113 that are provided to protrude with a phase difference and closely contact the commutator element 111 and rotate while alternating the positive polarity and the negative polarity.
- the center portion is slipably engaged with the fixed shaft 100 by using the bushing 102 and one side is formed by forming the pair of DC supply circuits 118A and 118B and the other side is formed by the three pairs And the disk brush 117 of the disk type is formed while moving by 1 lane to the central portion while maintaining a phase difference by 120 degrees and fixed to the power housing 170 .
- a pair of circuits at one side of the slip disk terminal 116 are maintained at 0 ° and 180 °, respectively, while maintaining a phase difference of 120 ° in each of the three lanes, and one lane Pair DC supply circuits 118A and 118B that are formed while moving.
- Three pairs of brushes on the opposite sides of the pair of DC supply circuits 118A and 118B are maintained at 0 DEG and 180 DEG, respectively, while maintaining a phase difference of 120 DEG in each of the three lanes, And three pairs of disk brushes 117 formed so as to alternate the positive electrode (+) and the negative electrode (-) while moving by a predetermined distance Lane.
- One end of the coil is coupled to the outer circumferential surface of the coil outlet guard 144 by a bushing and the outer circumference thereof is engaged with one side of the alternating current holder 112A or the one side of the direct current holder 112B And the brush holder bracket L (119L).
- One end of the coil outlet guard 144 is slidably coupled to the outer circumferential surface of the coil outlet guard 144 by bushing and the outer circumference thereof is coupled with one side of the AC holder 112A or the DC holder 112B, And the other end is provided with the brush holder bracket R (119R) fixedly coupled with the DC motor rotating shaft (101) and rotating.
- a plurality of coil outlets 145 are formed across the body and a commutator coil 143 is led across the body as a central hollow portion and a DC motor rotation shaft 101 and a slip- And the outer shell has the coil outlet guard 144 that engages with the power housing 170.
- One side surface is provided with a power housing side plate L (170L) that engages with the outer periphery of the coil outlet guard 144.
- An inner circumferential surface of the power housing side plate L engages an outer periphery of the slip disk terminal 116 and an outer periphery of the DC motor 2
- the power housing housing 170 including the power housing side plate R 170R that is slipped with respect to the DC motor rotary shaft 101 on the other side.
- the slip disk terminal 116 and the battery 120 for supplying DC power to the DC motor 2 are provided.
- the power unit 20 may be configured to rotate the AC holder 112A or the DC holder 112B in place of the DC motor 2,
- An external power of the pulley 154 or the blade 155 coupled to one end of the rotor 101 or a rotor wheel or a magnetic power rotor may be used.
- the commutator coil 143 is led out through the coil outlet 145 by using the coil outlet guard 144 and the power generating unit 10 and the power unit 20 are connected together, .
- the field 140, the armature 150 and the power generation unit blowing motor 11 and the power generation unit cooling fan 12 which are the power generation unit 10 are connected to the fixed shaft a 100a
- the coil 120 is coupled to the power generation housing 13 together with the battery 120 and is installed separately at a separate place and the commutator coil 143 is connected through the coil outlet 145 using the coil outlet guard 144
- the rest of the commutator 110, the AC holder 112A or the DC holder 112B and the slip disk terminal 116 are formed on the fixed shaft b 100b, 2 to couple the pulley 154 or the blade 155 to the power housing 170 so that the power generation unit 10 and the power unit 20 can be separated from each other.
- the three pairs of disk brushes 117 formed in the slip disk terminal 116 are supplied with the electric current stored in the battery 120,
- the S pole and the N pole having the opposite polarities are sequentially alternately guided to the armature coil 152 which is equally configured and aligned with the field iron core 141 by a phase difference of 120 degrees.
- the field magnetic flux of the induced iron core 141 is 180 ° assumed from 0 ° to 6 °, assuming that the field magnetic flux is in the 12 o'clock direction
- the armature coil 152 also constitutes a corresponding semicircular winding coil with a field of 180 ° assumed from 0 ° to 6:00 assumed in the 12 o'clock direction.
- each field is formed by the same method as that of A + and A - poles by maintaining a phase difference of 120 °, Three phases of electromotive force are continuously generated in the armature coil 152 at a constant time.
- the present invention relates to a power generating apparatus
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Abstract
Description
Claims (8)
- 발전장치(1)의 동력부하우징(170) 내부에 DC모터회전축(101)과 회전자(21)와 고정자(22)를 구비하는 DC모터(2)와;상기 DC모터회전축(101)의 일측에서 정류자(110) 방향으로 결합되는 송풍날개(23)와;계자(140)와, 상기 정류자(110)를 고정시키고, 슬립디스크단자(116)의 중심부를 관통하며, 교류용홀더(112A) 또는 직류용홀더(112B)의 일부분과 슬립(slip)하게 결합하는 고정축(100)과;상기 발전장치(1)의 발전부하우징(13) 내부에 결합되며, 계자철심(141)에 각각의 계자코일(142)이 권선된 상기 계자(140)와;상기 발전장치(1)의 상기 발전부하우징(13) 내부에서 상기 계자코일(142)의 외곽에 이격된 상태에서 맞대응하며 전기자철심(151) 및 전기자코일(152)을 구비한 전기자(150)와;상기 고정축(100)의 일측단에서 상기 계자코일(142)과 각각 상응하도록 코일연결선(143)으로 연결되고 원형으로 배열되며 복수의 정류자편(111)으로 구비되는 상기 정류자(110)와;얇은 운모편에 의해 서로 절연된 쐐기 모양의 상기 정류자편(111)과;안쪽 내면에 3쌍의 정류자브러시(113)를 구비하며, 일측면은 브러시홀더블라켓L(119L)과 결합되고 타측면은 브러시홀더블라켓R(119R)을 상기 DC모터 회전축(101)에 고정되게 결합하여 상기 정류자편(111)의 외주면과 밀착되어 회전하도록 하는 중공원통형의 교류용홀더(112A)와;안쪽 내면에 3쌍의 정류자브러시(113)를 구비하며, 일측면은 상기 브러시홀더블라켓L(119L)과 결*되고 타측면은 상기 브러시홀더블라켓R(119R)을 상기 DC모터 회전축(101)에 고정되게발합하여 상기 정류자편(111)의 외주면과 밀착되어 회전하도록 하는 중공원통형의 직류용홀더(112B)와;3쌍의 디스크브러시(117)와 맞대응하여 회전하도록 3쌍분배회로(115A) 또는 3라인분배회로(115B)가 각각 3곳의 레인(Lane)에서 120°의 위상 차이를 유지하여 각각 180°간격의 단절회로로 각각 1레인(Lane)씩 성형되고 브러시연결선(113a)으로 상기 3쌍의 정류자브러시(113)와 연결되어 전류의 단절 또는 연결을 반복하도록 하는 원판형의 교류용분배기(114A)와;상기 3쌍의 디스크브러시(117)와 맞대응하여 회전하도록 상기 3쌍분배회로(115A) 또는 상기 3라인분배회로(115B)가 각각 3곳의 레인(Lane)에서 120°의 위상 차이를 유지하여 각각 180°간격의 연속회로로 각각 1레인(Lane)씩 성형되고 상기 브러시연결선(113a)으로 상기 3쌍의 정류자브러시(113)와 연결되어 전류의 공급을 지속하도록 하는 원판형의 직류용분배기(114B)와;상기 교류용홀더(112A) 또는 상기 직류용홀더(112B)의 안쪽 내면에는 3쌍의 브러시가 각각 0°와 180°를 유지하고, 3곳의 레인(Lane)에서 120°의 간격으로 각각 1레인(Lane)씩 120°의 위상 차이로 돌출되도록 구비되어 상기 정류자편(111)을 밀착하여 양극(+)와 음극(-)을 교번시키며 회전하는 상기 3쌍의 정류자브러시(113)와;중심부가 부싱(102)을 이용하여 상기 고정축(100)과 슬립(slip)하게 결합하고, 일측면은 1쌍직류공급회로(118A,118B)를 성형하고 타측면은 후면과 연결된 상기 3쌍의 디스크브러시(117)가 시계방향으로 각각 3곳의 레인(Lane)에서 120°씩 위상차를 유지하여 성형되고 상기 동력부하우징(170)에 고정되는 원판형의 슬립디스크단자(116)와;상기 슬립디스크단자(116)의 일측면에서 1쌍의 회로가 각각 0°와 180°를 유지하고 각각 3곳의 레인(Lane)에서 120°씩의 위상차를 유지하면서 각각 1레인(Lane)씩 중심방향으로 연결되면서 성형된 상기 1쌍직류공급회로(118A,118B)와;상기 1쌍직류공급회로(118A,118B)의 반대쪽에 3쌍의 브러시가 각각 0°와 180°를 유지하고 각각 3곳의 레인(Lane)에서 120°씩의 위상차를 유지하면서 각각 1레인(Lane)씩 중심방향으로 이동하면서 양극(+)와 음극(-)을 교번시키도록 성형된 상기 3쌍의 디스크브러시(117)와;중심부가 중공(중공)으로써 일측은 코일출구가드(144)의 외주면에 부싱을 이용하여 슬립(Slip)하게 결합하고, 외곽은 상기 교류용홀더(112A) 또는 상기 직류용홀더(112B)의 일측면과 결합하는 상기 브러시홀더브라켓L(119L)과;중심부가 중공(中空)으로써 일측은 상기 코일출구가드(144)의 외주면에 부싱을 이용하여 슬립(Slip)하게 결합하고, 외곽은 상기 교류용홀더(112A) 또는 상기 직류용 홀더(112B)의 일측면과 결합하며, 타측은 상기 DC모터회전축(101)과 고정되게 결합하여 회전하는 상기 브러시홀더브라켓R(119R)과;중심부가 중공(中空)으로써 몸통을 가로질러서 다수의 코일출구(145)를 성형하고 정류자코일(143)도출하며, 중심부에 부싱(102)을 이용하여 상기 DC모터회전축(101)과 슬립(slip)하게 결합하고, 외곽은 상기 동력부하우징(170)과 결합하는 상기 코일출구가드(144)와;일측면은 상기 코일출구가드(144)의 외곽과 결합하는 상기 동력부하우징측판L(170L)을 구비하고, 내주면은 상기 슬립디스크단자(116)의 외곽 및상기 DC모터(2)의 외곽을 결합하고, 타측면은 상기 DC모터회전축(101)과 슬립(Slip)되도록 결합되는 동력부하우징측판R(170R)을 포함하는 상기 동력부하우징(170) 및;상기 슬립디스크단자(116)와 상기 DC모터(2)에 직류 전원을 공급하기 위한 축전지(120)로 구성되는 것을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
- 제1항에 있어서,상기 발전부(10)가 상기 계자(140)와 상기 전기자(150)를 냉각시키기 위해 상기 발전부 송풍모터(11) 및 상기 발전부 냉각팬(12)을 상기 발전부하우징(13)에 결합하는 것을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
- 제1항에 있어서,상기 3쌍분배회로(115A)는 상기 1쌍직류공급회로(118A,118B)와 맞대응하여 회전되고, 동일하게 상기 3라인분배회로(115B)도 상기 1쌍직류공급회로(118A,118B)와 맞대응하여 회전하도록 구성되어짐을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
- 제1항에 있어서,상기 발전장치(1)의 발명에서 상기 브러시홀더브라켓(119L,119R)과 분배기(114A,114B)를 구비한 상기 교류용홀더(112A) 또는 상기 직류용홀더(112B) 그리고 상기 1쌍직류공급회로(118A,118B)와 상기 3쌍의 디스크브러시(117)를 구비한 상기 슬립디스크단자(116)를 상기 정류자(110)의 반대편으로 위치를 변환하여 실시할 수 있도록 구성되어짐을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
- 제1항에 있어서,상기 동력부(20)가 상기 교류용홀더(112A) 또는 상기 직류용홀더(112B)를 회전시키기 위해 상기 DC모터(2)를 대신하여 상기 DC모터회전축(101)의 일측단에 결합되는 상기 풀리(Pulley)(154) 또는 상기 블레이드(Blade)(155)나 로터 휠(Rotor Wheel) 또는 자력 회전체(magnetic power rotor)의 외부동력도 이용하는 것을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
- 제1항에 있어서,상기 코일출구가드(144)를 이용하여 상기 코일출구(145)를 통해서 상기 정류자코일(143)을 도출하며, 상기 발전부(10)와 상기 동력부(20)까지 함께 연결시켜 일체형으로 구성하는 것을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
- 제1항에 있어서,상기 발전부(10)인 상기 계자(140)와, 상기 전기자(150)와, 상기 발전부 송풍모터(11) 및 상기 발전부 냉각팬(12)은 분리된 고정축a(100a)에 구성한 후 상기 축전지(120)와 함께 상기 발전부 하우징(13)에 결합하여 독립된 장소에 분리 설치하고, 상기 코일출구가드(144)를 이용하여 상기 코일출구(145)를 통해서 상기 정류자코일(143)을 도출시키고, 상기 정류자(110)와, 상기 교류용홀더(112A) 또는 상기 직류용홀더(112B)와, 상기 슬립디스크단자(116)는 고정축b(100b)에 구성한 후 상기 DC모터(2)를 포함해서 상기 풀리(154) 또는 상기 블레이드(155)를 상기 동력부 하우징(170)에 결합시켜 발전부(10)와 동력부(20)를 분리형으로 구성하는 것을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
- 제1항에 있어서,상기 계자코일(142)과 상기 전기자코일(152)의 작용으로 계자자극(magnetic pole)의 잔류자기(residual magnetism)로부터 자체에서 발생시킨 전류를 공급받거나, 상기 축전지(120)에 저장했던 전류를 공급받아서 상기 슬립디스크단자(116)의 상기 1쌍직류공급회로(118A,118B)에게 먼저 공급되고 반대쪽 면에 성형된 상기 3쌍의 디스크브러시(117)와 이와 밀착되어 회전하는 상기 교류용분배기(114A) 또는 상기 직류용분배기(114B)를 지나 상기 교류용홀더(112A) 또는 상기 직류용홀더(112B)의 내측면에 120°의 위상 차이로 각각 1레인(Lane)씩 성형시킨 상기 3쌍의 정류자브러시(113)로 공급되며, 그 다음 상기 정류자편(111)이 이를 받아서 각각 120°의 위상 차이로 전류공급이 단절 또는 연결이 반복되도록 하여 상기 계자철심(141)에게 각 상(Phase)이 120°의 위상 차이로 각각 양극(+)와 음극(-)이 순차적으로 발생시키게 되고, 상기 계자철심(141)과 대응되는 상기 전기자코일(152)에게도 순차적인 120°의 위상 차이로 음극(-)과 양극(+)의 자력이 유도되도록 하여 3상(Three phase)의 기전력이 발생될 수 있도록 구성되어짐을 특징으로 하는 다중브러시와 분배기를 이용하여 AC 또는 DC로 변환할 수 있는 발전장치.
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WO2019050382A3 (ko) | 2019-05-02 |
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