CN215601186U - Self-circulation generator - Google Patents

Self-circulation generator Download PDF

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Publication number
CN215601186U
CN215601186U CN202120611194.4U CN202120611194U CN215601186U CN 215601186 U CN215601186 U CN 215601186U CN 202120611194 U CN202120611194 U CN 202120611194U CN 215601186 U CN215601186 U CN 215601186U
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battery
coil
port
conversion
coil group
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CN202120611194.4U
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Chinese (zh)
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高立才
阿布迪热合曼·阿布迪瓦斯提
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Hebei Huapeng Technology Co ltd
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Hebei Huapeng Technology Co ltd
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Abstract

The utility model belongs to the technical field of electric equipment, and discloses a self-circulation generator which comprises a first coil group, a second coil group, a battery component and a switch, wherein the battery component comprises a power supply battery, a first conversion battery and a second conversion battery, the first coil group is provided with stable voltage output by the power supply battery, the second coil group is alternatively supplied with power by the first conversion battery and the second conversion battery which can be automatically converted, therefore, the output of the first generating coil and the second generating coil is used as a total generating end, a part of electricity output after starting is used for continuously rotating the electricity, redundant electricity is charged to the first converting battery or the second converting battery, when the electric equipment enters the inertial motion of no electricity input, when no electricity is provided, mechanical energy is still output, the first coil group and the second coil group can collect the mechanical energy and convert the mechanical energy into electric energy to be stored in the first conversion battery or the second conversion battery, and the utilization rate of electricity is effectively improved.

Description

Self-circulation generator
Technical Field
The utility model belongs to the technical field of electric equipment, and relates to a self-circulation generator.
Background
An electric motor is a device that converts electrical energy into mechanical energy. The electromagnetic power generator utilizes an electrified coil (namely a stator winding) to generate a rotating magnetic field and acts on a rotor to form magnetoelectric power rotating torque. The motor mainly comprises a stator and a rotor, and the direction of the forced movement of the electrified conducting wire in a magnetic field is related to the current direction and the direction of a magnetic induction line (magnetic field direction). The working principle of the motor is that the magnetic field exerts force on current to rotate the motor.
The generator has wide application in industrial and agricultural production, national defense, science and technology and daily life. The generator has many forms, but the working principle is based on the law of electromagnetic induction and the law of electromagnetic force. The general principle of its construction is therefore: appropriate magnetic conductive and electric conductive materials are used to form a magnetic circuit and a circuit which mutually perform electromagnetic induction so as to generate electromagnetic power and achieve the purpose of energy conversion.
At present, a common electric device generally uses a generator or a battery to directly provide electric quantity, but when the electric device does inertial motion without electric input, such as an electric vehicle running downhill, an electric vehicle sliding after braking, and the like, how to collect and convert the mechanical energy into electric energy for reuse has a positive influence on the recycling of the electricity.
SUMMERY OF THE UTILITY MODEL
The utility model designs a self-circulation generator, which adopts the matching use of a power supply battery and two conversion batteries, thereby improving the utilization rate of electric quantity.
The technical scheme adopted by the utility model is that,
the self-circulation generator comprises a first coil group, a second coil group, a battery component and a switch,
the first coil group comprises a first driving coil and a first generating coil, the second coil group comprises a second driving coil and a second generating coil, the battery assembly comprises a power supply battery, a first conversion battery and a second conversion battery, the power supply battery is connected with the first driving coil through the first control panel, the positive electrode of the first conversion battery and the positive electrode of the second conversion battery are connected with a switch respectively, the switch is further connected with the second driving coil through the second control panel, the first generating coil and the second generating coil are connected together through a rectifier to serve as a total generating end, the total generating end is connected with the switch, and the total generating is further connected with the positive input end of the first control panel.
The switch comprises a port A, a port B, a port C and a port D, wherein the port A is connected with a total power generation end, the port B is connected with the positive electrode of the first conversion battery, the port D is connected with the positive electrode of the second conversion battery, and the port C is connected with the second driving coil by means of a second control panel.
The control panel I, the control panel II, the rectifier, the power supply battery, the conversion battery I and the conversion battery II are connected together.
And a capacitor is connected in parallel between the anode and the cathode of the output end of the rectifier.
The utility model has the beneficial effects that:
the first coil group is provided with stable voltage output by a power supply battery, the second coil group is alternatively supplied with power by a first conversion battery and a second conversion battery which can be automatically converted, so that the output of the first power generation coil and the second power generation coil is taken as a total power generation end, a part of electricity output after starting is used for continuous rotation of the second coil group, redundant electricity is charged to the first conversion battery or the second conversion battery, when the electric equipment enters inertial motion without electricity input, mechanical energy is still output when no electricity is provided, the mechanical energy is converted into electric energy which is stored in the first conversion battery or the second conversion battery, and the utilization rate of the electricity is effectively improved.
The present invention will be described in detail with reference to the accompanying drawings.
Drawings
FIG. 1 is a circuit schematic of the present invention;
FIG. 2 is a schematic structural view of the present invention;
FIG. 3 is a schematic diagram of the switch of the present invention;
in the drawing, 1, a first coil group, 2, a second coil group, 31, a power supply battery, 32, a first conversion battery, 33, a second conversion battery, 4, a switch, 5, a total power generation end, 6, a capacitor, 11, a first driving coil, 12, a first power generation coil, 21, a second driving coil, 22 and a second power generation coil.
Detailed Description
The technical solutions of the present invention are further described in detail below with reference to specific examples and drawings, but the scope and implementation of the present invention are not limited thereto.
Embodiment 1, as shown in fig. 1, the present invention is a self-circulation generator, comprising a first coil assembly 1, a second coil assembly 2, a battery assembly and a switch 4,
the first coil group 1 comprises a first driving coil 11 and a first generating coil 12, the second coil group 2 comprises a second driving coil 21 and a second generating coil 22, the battery assembly comprises a power supply battery 31, a first conversion battery 32 and a second conversion battery 33, the power supply battery 31 is connected with the first driving coil 11 through a first control board, the positive electrode of the first conversion battery 32 and the positive electrode of the second conversion battery 33 are respectively connected with a switch 4, the switch 4 is further connected with the second driving coil 21 through a second control board, the first generating coil 12 and the second generating coil 22 are respectively connected together through a rectifier to serve as a total generating end 5, the total generating end 5 is connected with the switch 4, and the total generating end 5 is used for supplying power to a load.
The switch 4 comprises a port A, a port B, a port C and a port D, wherein the port A is connected with the total power generation end 5, the port B is connected with the positive electrode of the first conversion battery 32, the port D is connected with the positive electrode of the second conversion battery 33, and the port C is connected with the second driving coil 21 through the second control board.
The switch 4 comprises two single pole double throw switches, as shown in figure 3,
the control board I, the control board II, the rectifier, the power supply battery 31, the conversion battery I32 and the conversion battery II 33 are connected together.
State 1, port a is in communication with port B, port C is in communication with port D,
at this time, the power supply battery 31 supplies power to the first driving coil 11 through the first control board, the first conversion battery 32 supplies power to the second driving coil 21 through the second control board after being communicated with the port C through the port D, after the first coil group 1 and the second coil group 2 have electric input, three-phase alternating currents are respectively output from the first generating coil 12 and the second generating coil 22, and are respectively rectified into direct currents through the rectifier and then collected together to serve as the total generating end 5, part of electric output of the total generating end 5 can supply power to a load, and part of electric power is communicated with the port B through the port a and then charges the second conversion battery 33;
state 2, port a is in communication with port D, port C is in communication with port B,
at this time, the power supply battery 31 supplies power to the first driving coil 11 through the first control board, the second conversion battery 33 is communicated with the port C through the port B and supplies power to the second driving coil 21 through the second control board, after the first coil group 1 and the second coil group 2 have electric input, three-phase alternating currents are respectively output from the first generating coil 12 and the second generating coil 22, and are respectively rectified into direct currents through the rectifier and then collected together to serve as the total generating end 5, part of electric output of the total generating end 5 can supply power to a load, and part of electric is communicated with the port D through the port A and then charges the first conversion battery 32;
the first switching battery 32 and the second switching battery 33 are respectively connected with the controller through a power detection circuit, when the controller detects that the first switching battery 32 is low in power under the condition of the state 1, the controller controls the switch 4 to switch to the connection between the port A and the port D and the connection between the port C and the port B (namely, the state 2), and when the controller detects that the second switching battery 33 is low in power, the controller controls the switch 4 to switch back to the connection between the port A and the port B and the connection between the port C and the port D (namely, the state 1).
Specific embodiment 2, as shown in fig. 2, first coil assembly 1 and second coil assembly 2 equally divide and do not include the silicon steel sheet, be equipped with a plurality of wire casings on the silicon steel sheet, the in-line coil that is equipped with, the wire casing includes driving channel and electricity generation groove, electricity generation groove quantity is 21, driving channel quantity is 63, driving channel and electricity generation groove are with annular align to grid, and the driving channel is at the outer loop, and the electricity generation groove is at the inner ring, and driving channel and electricity generation groove setting are on same rotor, and the driving channel still is equipped with the permanent magnet outward and regards as the stator, drives the rotor rotation under the magnetic field effect after the driving channel circular telegram, and electricity generation groove electricity generation.
In the utility model, the power supply battery 31 is used for providing stable voltage source output, when external resistance or friction loss exists, the electric quantity of the total power generation end 5 is not enough to provide the electric quantity required by the first coil 11, the electric quantity can be supplemented and provided from the power supply battery 31, the first conversion battery 32 and the second conversion battery 33 can be used alternately, one can be used for charging when used for generating power, and the other can be used for collecting the electric quantity, the first control board and the second control board can control the work through the outside, so that the use of personnel is facilitated, a diode is connected between the total power generation end 5 and the anode of the power supply battery 31, the conduction direction of the diode is directed to the anode of the power supply battery 31 from the total power generation end 5, and the current backflow of the power supply battery 31 is prevented.

Claims (4)

1. Self-loopa generator, its characterized in that: comprises a first coil group (1), a second coil group (2), a battery component and a switch (4),
the first coil group (1) comprises a first driving coil (11) and a first generating coil (12), the second coil group (2) includes a second driving coil (21) and a second generating coil (22), the battery component comprises a power supply battery (31), a first conversion battery (32) and a second conversion battery (33), the power supply battery (31) is connected with the first driving coil (11) by means of a control board, the positive electrode of the first conversion battery (32) and the positive electrode of the second conversion battery (33) are respectively connected with a switch (4), the switch (4) is connected with a second driving coil (21) by a control board II, the first and second power generation coils (12, 22) are each connected together by means of a rectifier as a total power generation terminal (5), the total power generation end (5) is connected with the switch (4), and the total power generation end (5) is also connected with the positive input end of the first control board.
2. The self-circulating generator of claim 1, wherein: the switch (4) comprises a port A, a port B, a port C and a port D, the port A is connected with a total power generation end (5), the port B is connected with the positive electrode of the first conversion battery (32), the port D is connected with the positive electrode of the second conversion battery (33), and the port C is connected with the second driving coil (21) through the second control board.
3. The self-circulating generator of claim 1, wherein: the control board I, the control board II, the rectifier, the power supply battery (31), the conversion battery I (32) and the conversion battery II (33) are connected together.
4. The self-circulating generator of claim 1, wherein: and a capacitor (6) is connected in parallel between the anode and the cathode of the output end of the rectifier.
CN202120611194.4U 2021-03-25 2021-03-25 Self-circulation generator Active CN215601186U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120611194.4U CN215601186U (en) 2021-03-25 2021-03-25 Self-circulation generator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120611194.4U CN215601186U (en) 2021-03-25 2021-03-25 Self-circulation generator

Publications (1)

Publication Number Publication Date
CN215601186U true CN215601186U (en) 2022-01-21

Family

ID=79871205

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202120611194.4U Active CN215601186U (en) 2021-03-25 2021-03-25 Self-circulation generator

Country Status (1)

Country Link
CN (1) CN215601186U (en)

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