TWM632792U - Mechanism of electricity and power - Google Patents

Abstract

This work is an electric and dynamic mechanism, including: ferrite reactor, super capacitor, motor, magnetic bearing, generator, coupling, speed change mechanism, load. The supercapacitor is connected to the motor as a starting energy source. The rotation shaft of the motor extends outward and becomes the rotation shaft of the generator. Magnetic bearings are installed on both sides of the motor casing to support the rotation shaft of the motor. When the rotation shaft of the motor rotates, the generator Output power, part of the generated power is exported, and part of it is returned to the ferrite reactor to charge the super capacitor as the power to start the motor next time. The rotating shaft of the motor extends outward to connect the coupling, the speed change mechanism and the load, and can also output power.

Description

Electricity and Power Mechanism

This creation belongs to the field of electric power and power mechanism technology, especially refers to the use of generators combined with ferrite reactors to save electricity and generate electric energy, to provide pollution-free, energy-saving, and continuous and stable electric energy for use by external load devices, and to recycle electric energy for power supply. The device continues to operate.

Due to global warming and rising awareness of environmental protection, governments around the world have adjusted their energy policies, shifting from fossil fuels to green energy that saves energy and reduces carbon emissions. How to save energy, use energy in a way that does not pollute or damage the environment, and even find clean and efficient new energy are the goals pursued by all walks of life.

The known technology US 10454340 B2 Power Storage Device (energy storage device) includes: a drive unit, a power generation unit and a power supply unit. The drive unit has a rotating shaft and is arranged in a casing. The rotating shaft is provided with a plurality of first permanent magnets, and the casing is provided with a plurality of first auxiliary magnets corresponding to the first permanent magnets. The corresponding first permanent magnet and first auxiliary magnet surfaces have the same magnetic poles. Through the repulsive force between the first permanent magnet and the first auxiliary magnet, a magnetic levitation effect is generated, and the rotating shaft has less frictional resistance when rotating, and the rotation is smoother, and the rotating speed can be increased to achieve high efficiency and reduce power loss.

However, in the structure disclosed in this prior art, the rotating shaft shared by the motor and the generator is supported on the casing by bearings. Although there is a motor with ring-type magnetic levitation effect, when the rotating shaft rotates, Bearings still have friction that leads to loss of kinetic energy, and this friction will increase temperature and noise, shorten service life, and often require maintenance and replacement.

The known technology TWM621954 power unit mainly includes a motor that is provided with starting power by an uninterruptible power supply device. The motor drives a flywheel body. An axis is fixed at the center of the flywheel body. Magnetic bearings to provide inertial power for the shaft to continue to rotate. The rear end of the aforementioned shaft is connected to a speed change device with a coupling. The speed change device is connected to a power generation device. The power generating device is also electrically connected to a reactor, the reactor is electrically connected to a recharge rectifier, and the recharge rectifier is electrically connected back to the aforementioned uninterruptible power supply device, so as to store the electric energy of the power generating device into The uninterruptible power supply device is used to provide the power needed to start the motor for the flywheel body to run.

However, the magnetic bearing disclosed in this prior art does not limit the radial and axial movement ranges of the rotating shaft at the same time, so the effect of magnetic levitation is greatly reduced; in addition, the general reactor used in this case has low efficiency and uses a large Flywheels are used to store inertial power, and general uninterruptible power systems are all large-volume mechanisms, which are difficult to apply in a small space.

Therefore, the present invention contemplates a kind of electric power and power mechanism, adopts magnetic bearing (ring type, disk type) magnetic levitation design, and combines high-efficiency ferrite reactor with generator, saves electricity, generates electric energy, provides pollution-free, energy-saving and continuous The stable output power can be used by external load devices, and can recharge the energy to super capacitors for device startup and continuous operation. High-efficiency ferrite reactors combined with super capacitors can reduce volume requirements compared with conventional technologies, and the mechanism can be adjusted according to the design ratio It can be large or small, can be applied in a small space, and can also be scaled up and applied to large power and high power output, showing a multi-output power and power mechanism.

This work is an electric and dynamic mechanism, including: ferrite reactor, super capacitor, motor, magnetic bearing (ring type, disc type), generator (ring type, disc type), coupling, speed change mechanism, load. The supercapacitor is connected to the motor as a starting energy source. The rotation shaft of the motor extends outward and becomes the rotation shaft of the generator. Magnetic bearings (ring type and disc type) are installed on both sides of the motor casing to support the rotation shaft of the motor. The rotation of the motor While the shaft is rotating, the generator (ring type, disc type) outputs power, part of the generated power is output, and part of it is returned to the ferrite reactor to charge the super capacitor as the power to start the motor next time. The rotating shaft of the motor extends outward to connect the coupling, the speed change mechanism and the load, and can also output power.

This creation is an electric power and dynamic mechanism, the first state includes: ferrite reactor, super capacitor, motor, ring magnetic bearing, ring generator, disk magnetic bearing, coupling, speed change mechanism, load. Among them, the ferrite reactor is connected to the supercapacitor, and the supercapacitor is connected to the motor as the starting energy. The rotation axis of the motor extends outwards and becomes the rotation axis of the ring type magnetic bearing, the ring type generator and the disc type magnetic bearing, and the ring type Magnetic bearings, ring generators and disc magnetic bearings are installed side by side on one side or two sides of the motor casing in sequence. The ring magnetic bearing and the disc magnetic bearing support the rotating shaft, making the rotating shaft magnetically levitated, and the ring magnetic bearing restricts the rotation. The radial movement range of the shaft, the disc magnetic bearing limits the axial movement range of the rotating shaft, so that the magnetic bearing has no friction loss, while the rotating shaft of the motor rotates, the ring generator outputs power, and part of the generated power is output , part of it goes through the ferrite reactor, and charges the supercapacitor as the power for the next startup of the motor. Wherein, the rotating shaft of the motor is further extended from the generator casing to connect with the coupling, the transmission mechanism and the load to output power.

This work is an electric and dynamic mechanism, the second state includes: ferrite reactor, super capacitor, motor, ring magnetic bearing, ring generator, disc magnetic bearing, Couplings, transmission mechanisms, loads. Among them, the ferrite reactor is connected to the supercapacitor, and the supercapacitor is connected to the motor as the starting energy. The rotation axis of the motor extends outwards and becomes the rotation axis of the ring type magnetic bearing, the ring type generator and the disc type magnetic bearing, and the ring type The magnetic bearing and the disc magnetic bearing are installed side by side in sequence on one or both sides of the motor casing, the ring generator is placed on the radial outer ring of the ring magnetic bearing and the disc magnetic bearing, and the ring magnetic bearing and the disc magnetic The bearing supports the rotating shaft, making the rotating shaft magnetically levitated, the ring type magnetic bearing limits the radial movement range of the rotating shaft, and the disc type magnetic bearing limits the axial moving range of the rotating shaft, so that the magnetic bearing has no friction loss, and the rotating shaft of the motor rotates At the same time, the ring generator outputs electricity, part of the generated electricity is output, and part of it is returned to the ferrite reactor to charge the supercapacitor as the electricity for starting the motor next time. Wherein, the rotating shaft of the motor is further extended from the generator casing to connect with the coupling, the transmission mechanism and the load to output power.

This creation is an electric and dynamic mechanism, and the third aspect includes: ferrite reactor, supercapacitor, motor, ring magnetic bearing, disc generator, disc magnetic bearing, coupling, speed change mechanism, and load. Among them, the ferrite reactor is connected to the supercapacitor, and the supercapacitor is connected to the motor as the starting energy. The rotation axis of the motor extends outwards and becomes the rotation axis of the ring type magnetic bearing, the disk generator and the disk type magnetic bearing, and the ring type Magnetic bearings, disc generators and disc magnetic bearings are installed side by side on one side or both sides of the motor casing in sequence. The ring magnetic bearing and the disc magnetic bearing support the rotating shaft, making the rotating shaft magnetically levitated, and the ring magnetic bearing restricts the rotation. The radial movement range of the shaft, the disc magnetic bearing limits the axial movement range of the rotating shaft, so that the magnetic bearing has no friction loss, while the rotating shaft of the motor rotates, the disc generator outputs power, and part of the generated power is output , part of it goes through the ferrite reactor, and charges the supercapacitor as the power for the next startup of the motor. Among them, the rotation shaft of the motor is further extended from the generator casing Connect the coupling, speed change mechanism and load to output power. Among them, the rotating part outside the disc generator can be further equipped with ring-shaped metal, which can rotate with the rotating shaft, increase the moment of inertia, and make power transmission smoother.

The power and power mechanism of this creation, in which the super capacitor is used as the starting power, has the advantages of small size, large capacity, wide operating temperature range, and long life.

Part of the electricity generated by the generator is used to recharge ferrite reactors and supercapacitors, and part of it can be used to output electricity, such as storing electrical energy in batteries and supercapacitors. Stored in the battery, and then use the stable output power; stored in the super capacitor, it can be used for instant discharge, such as starting a motor.

In the electric power and power mechanism of this invention, the disc generator and the disc generator are preferably a combination of permanent magnets and coils, and semiconductor circuit board types can also be selected.

In the electric power and power mechanism of this creation, the generator has a large moment of inertia and can also be used as a flywheel. Under proper operation with the coupler, power can be output through various gearboxes. A large flywheel can also be connected to store the moment of inertia, and it can be used in systems requiring large power.

The electric and power mechanism of this creation, among them, the magnetic bearing has no frictional resistance and improves the working efficiency.

The electric power and power mechanism of this creation, wherein, the permanent magnets of each component are all fixed on the rotating shaft, and rotate with the rotating shaft, and the coils of each component are all fixed on the motor casing.

This work is a mechanism that can output electricity and power at the same time. The volume can be large or small, and it can be used in combination with various power machines.

This work is a power and power mechanism with mixed use of AC and DC. It can input AC or DC as the starting power supply, and can output AC or DC to the load. It can be achieved by adding a rectifier or a frequency converter between the institutions.

1: Ferrite reactor

2: super capacitor

3: Motor

30: axis of rotation

31: Motor permanent magnet

32: Motor coil

33: ring metal

4: Ring magnetic bearing

41: ring type magnetic bearing permanent magnet

42: Ring magnetic bearing coil

5: ring generator

51: Ring generator coil

52: ring generator permanent magnet

5a: Disk generator

51a: Disc generator coil

52a: Disc generator permanent magnet

6: Disk type magnetic bearing

61: Disc magnetic bearing permanent magnet

62: Disc magnetic bearing coil

7:Coupler

8: Speed change mechanism, planetary gear

9: load

Fig. 1 is a schematic diagram of the power and dynamic mechanism of this creation, wherein the ring-type magnetic bearing, the ring-type generator and the disk-type magnetic bearing are implemented side by side in sequence.

Figure 2. The electric and dynamic mechanism of this creation, wherein the ring-type magnetic bearing, ring-type generator and disk-type magnetic bearing are implemented side by side in sequence, and the schematic diagram of further connecting the coupling, the speed change mechanism and the load.

Fig. 3. Schematic diagram of the implementation of the electric and dynamic mechanism of this invention, wherein the ring generator is placed on the radial outer ring of the ring magnetic bearing and the disc magnetic bearing.

Figure 4. The electric power and dynamic mechanism of this creation, wherein the ring generator is placed on the radially outer ring of the ring magnetic bearing and the disc magnetic bearing, and the schematic diagram of further connecting the coupling, the speed change mechanism and the load.

Fig. 5 is a schematic diagram of the power and dynamic mechanism of the invention, wherein the ring magnetic bearing, the disk generator and the disk magnetic bearing are implemented side by side in sequence.

Figure 6. The electric power and power mechanism of this creation, wherein the annular magnetic bearing, the disc generator and the disc magnetic bearing are implemented side by side in sequence, and the schematic diagram of further connecting the coupling, the speed change mechanism and the load.

Referring to the structure shown in Figure 1 and Figure 2, it is the first state of the power and power mechanism of this creation, including: ferrite reactor 1, super capacitor 2, motor 3, ring magnetic bearing 4, ring generator 5. Disc magnetic bearing 6, coupling 7, speed change mechanism 8, load 9. That Among them, the ferrite reactor 1 is connected to the supercapacitor 2, and the supercapacitor 2 is connected to the motor 3 as the starting energy. The rotating shaft 30 of the bearing 6, the ring-type magnetic bearing 4, the ring-type generator 5 and the disk-type magnetic bearing 6 are installed side by side in sequence on both sides of the motor 3 casing, and the ring-type magnetic bearing 4 and the disk-type magnetic bearing 6 support the rotating shaft 30 , so that the rotating shaft 30 is magnetically suspended, the ring magnetic bearing 4 limits the radial movement range of the rotating shaft 30, and the disc magnetic bearing 6 limits the axial moving range of the rotating shaft 30, so that the magnetic bearing has no friction loss, and the rotation of the motor 3 While the shaft 30 is rotating, the ring generator 5 outputs electric power, a part of the generated electric power is output, and a part returns to the ferrite reactor 1 to charge the supercapacitor 2 as the electric power for starting the motor 3 next time. Wherein, the rotating shaft of the motor 3 further extends outward from the generator housing to connect the coupling 7 , the transmission mechanism 8 and the load 9 to output power.

In the electric power and power mechanism of this invention, the motor 3 includes a rotating shaft 30, a motor permanent magnet 31, and a motor coil 32. The motor permanent magnet 31 is fixed on the rotating shaft 30, and the motor coil 32 is fixed on the motor 3 casing.

The electric power and dynamic mechanism of this creation, wherein, ring type magnetic bearing 4, comprise ring type magnetic bearing permanent magnet 41, ring type magnetic bearing coil 42, ring type magnetic bearing permanent magnet 41 is fixed on rotating shaft 30, ring type magnetic bearing coil 42 is fixed on the motor 3 casing.

The electric power and power mechanism of this creation, wherein, ring generator 5, comprises ring generator coil 51, ring generator permanent magnet 52, and ring generator permanent magnet 52 is fixed on rotating shaft 30, and ring generator coil 51 is fixed on the motor 3 casing.

The electric power and power mechanism of this creation, wherein, the disk type magnetic bearing 6 comprises the disk type magnetic bearing permanent magnet 61, the disk type magnetic bearing coil 62, the disk type magnetic bearing permanent magnet 61 is fixed on the rotating shaft 30, and the disk type magnetic bearing coil 62 is fixed on the motor 3 casing.

The advantages of the first state of the electric power and dynamic mechanism of this creation are: the diameter is small, the moment of inertia of the ring generator 5 rotating parts is small, and there is no large flywheel device, so the energy required for starting is small, and it is suitable for small Space and small power requirements.

Referring to the structure shown in Figure 3 and Figure 4, it is the second form of the power and power mechanism of this creation, including: ferrite reactor 1, super capacitor 2, motor 3, ring magnetic bearing 4, ring generator 5. Disc magnetic bearing 6, coupling 7, speed change mechanism 8, load 9. Among them, the ferrite reactor 1 is connected with the supercapacitor 2, and the supercapacitor 2 is connected with the motor 3 as a starting energy source, and the rotating shaft 30 of the motor 3 is extended outward to form a ring-type magnetic bearing 4, a ring-type generator 5 and a disk-type The rotating shaft of the magnetic bearing 6, the ring-type magnetic bearing 4 and the disk-type magnetic bearing 6 are installed on both sides of the motor casing in sequence, and the ring-type generator 5 is placed on the radially outer ring of the ring-type magnetic bearing 4 and the disk-type magnetic bearing 6 , the ring-type magnetic bearing 4 and the disk-type magnetic bearing 6 support the rotating shaft 30, so that the rotating shaft 30 is magnetically suspended, the ring-type magnetic bearing 4 limits the radial movement range of the rotating shaft 30, and the disk-type magnetic bearing 6 limits the axis of the rotating shaft 30 The range of movement in the direction, so that the magnetic bearing has no friction loss, while the rotating shaft 30 of the motor 3 rotates, the ring generator 5 outputs electric power, part of the generated electric power is output, and part of the generated electric power passes through the ferrite reactor 1, and is sent to the super Capacitor 2 is charged to be used as electric power for starting the motor next time. Wherein, the rotating shaft of the motor 3 further extends outward from the generator casing to connect the coupling 7 , the transmission mechanism 8 and the load 9 to output power.

The second aspect of the electric power and power mechanism of this creation has the advantages of short length and large moment of inertia of the rotating part of the ring generator 5, which is equivalent to the large stored moment of inertia of a larger flywheel, and is more suitable for outputting large power.

Referring to the structure shown in Figure 5 and Figure 6, it is the third form of the power and power mechanism of this creation, including: ferrite reactor 1, super capacitor 2, motor 3, ring magnetic bearing 4, disc generator 5a, disc magnetic bearing 6, coupling 7, speed change mechanism 8, load 9. Among them, the ferrite electric The reactor 1 is connected to the supercapacitor 2, and the supercapacitor 2 is connected to the motor 3 as a starting energy source, and the rotating shaft 30 of the motor 3 extends outwards to become the rotation of the ring magnetic bearing 4, the disc generator 5a and the disc magnetic bearing 6 Shaft 30, ring-type magnetic bearing 4, disk-type generator 5a and disk-type magnetic bearing 6 are installed side by side in sequence on both sides of the motor housing, and ring-type magnetic bearing 4, disk-type generator 5a and disk-type magnetic bearing 6 are arranged in sequence , the ring-type magnetic bearing 4 and the disk-type magnetic bearing 6 support the rotating shaft 30, so that the rotating shaft 30 is magnetically suspended, the ring-type magnetic bearing 4 limits the radial movement range of the rotating shaft 30, and the disk-type magnetic bearing 6 limits the axis of the rotating shaft 30 The range of movement in the direction, so that the magnetic bearing has no friction loss, while the rotating shaft 30 of the motor 3 rotates, the disc generator 5a outputs electric power, part of the generated electric power is output, and part of it passes through the ferrite reactor 1, and is sent to the super The capacitor 2 is charged to be used as the power for starting the motor 3 next time. Wherein, the rotating shaft of the motor 3 further extends outward from the generator casing to connect the coupling 7 , the transmission mechanism 8 and the load 9 to output power.

In the electric power and power mechanism of this invention, the disc generator 5a includes a disc generator coil 51a, a disc generator permanent magnet 52a, the disc generator permanent magnet 52a is fixed on the rotating shaft 30, and the disc generator coil 51a is fixed to the casing of the motor 3 .

In the electric power and power mechanism of this invention, the rotating part outside the disc generator 5a can be further equipped with a ring-shaped metal 33, which can rotate with the rotating shaft 30 to increase the moment of inertia and make power transmission smoother.

The third aspect of the electric power and dynamic mechanism of this creation has the advantages that if there is no annular metal 33 arranged outside the disc generator 5a, the diameter can be smaller, the moment of inertia of the rotating part of the generator is small, and the energy required for starting is more Small, suitable for small space machinery and equipment.

1: Ferrite reactor

2: super capacitor

3: Motor

30: axis of rotation

31: Motor permanent magnet

32: Motor coil

41: ring type magnetic bearing permanent magnet

42: Ring magnetic bearing coil

51: Ring generator coil

52: ring generator permanent magnet

61: Disc magnetic bearing permanent magnet

62: Disc magnetic bearing coil

Claims (12)

An electric power and power mechanism, comprising: Ferrite reactors, super capacitors, motors, ring magnetic bearings, ring generators, disc magnetic bearings; among them, ferrite reactors are connected to super capacitors, super capacitors are connected to motors, and the rotation shaft of motors extends outward to become Ring type magnetic bearing, ring type generator and the rotating shaft of disc type magnetic bearing, ring type magnetic bearing, ring type generator and disc type magnetic bearing are installed side by side in the motor casing, while the rotating shaft of the motor rotates, the ring type The generator outputs electricity, part of the generated electricity is output, and part of it is returned to the ferrite reactor to charge the supercapacitor to be used as the electricity for starting the motor next time. The electric power and power mechanism as described in Claim 1, wherein the ring magnetic bearing, the ring generator and the disk magnetic bearing are arranged side by side in sequence, and are installed on one side or two sides of the motor casing, and the ring magnetic bearing and the disk The magnetic bearing supports the rotating shaft, making the rotating shaft magnetically levitated. The ring type magnetic bearing limits the radial movement range of the rotating shaft, and the disk type magnetic bearing limits the axial moving range of the rotating shaft, so that the magnetic bearing has no friction loss. The electric power and power mechanism according to claim 1, wherein the rotating shaft of the motor further extends outward from the generator casing to connect with the coupling, the speed change mechanism and the load to output power. An electric power and power mechanism, comprising: Ferrite reactors, super capacitors, motors, ring magnetic bearings, ring generators, and disk magnetic bearings. Among them, the ferrite reactor is connected to the super capacitor, and the super capacitor is connected to the motor. The rotation shaft of the motor extends outward to become Rotating shafts of ring magnetic bearings, ring generators and disk magnetic bearings, wherein the ring The magnetic bearing and disc-type magnetic bearing are installed in the motor housing in sequence, and the ring generator is placed on the radially outer ring of the ring-type magnetic bearing and the disc-type magnetic bearing. When the rotating shaft of the motor rotates, the ring generator outputs power. Part of the generated power is exported, and part of it is fed back through the ferrite reactor to charge the supercapacitor to be used as the power to start the motor next time. The electric power and power mechanism as described in Claim 4, wherein the ring-type magnetic bearing and the disk-type magnetic bearing are installed on one or both sides of the motor casing, and the ring-type generator is placed between the ring-type magnetic bearing and the disk-type magnetic bearing The radial outer ring, the ring magnetic bearing and the disc magnetic bearing support the rotating shaft, making the rotating shaft magnetically levitated, the ring magnetic bearing limits the radial movement range of the rotating shaft, and the disc magnetic bearing limits the axial moving range of the rotating shaft , so that the magnetic bearing has no friction loss. The electric power and power mechanism according to claim 4, wherein the rotating shaft of the motor further extends outward from the generator casing to connect with the coupling, the speed change mechanism and the load to output power. An electric power and power mechanism, comprising: Ferrite reactors, supercapacitors, motors, ring magnetic bearings, disk generators, and disk magnetic bearings. Among them, ferrite reactors are connected to supercapacitors, supercapacitors are connected to motors, and the rotation shaft of the motors extends outward to become Ring type magnetic bearing, disk type generator and the rotating shaft of the disk type magnetic bearing, the ring type magnetic bearing, disk type generator and disk type magnetic bearing are installed side by side in the motor casing in sequence, while the rotation shaft of the motor rotates, the disk type The generator outputs electricity, part of the generated electricity is output, and part of it is returned to the ferrite reactor to charge the supercapacitor to be used as the electricity for starting the motor next time. The electric power and power mechanism as described in Claim 7, wherein the rotating shaft of the motor extends outward to become the rotating shaft of the ring-type magnetic bearing, the disk generator and the disk-type magnetic bearing, and the ring-type magnetic bearing, the disk generator and the disk-type magnetic bearing The disc magnetic bearings are installed side by side on one side or both sides of the motor casing in sequence. The ring magnetic bearing and the disc magnetic bearing support the rotating shaft to make the rotating shaft magnetically levitate. The ring magnetic bearing limits the radial movement range of the rotating shaft. The disc type magnetic bearing limits the axial movement range of the rotating shaft, so that the magnetic bearing has no friction loss. The electric power and power mechanism according to claim 7, wherein the rotating shaft of the motor is further extended from the generator casing to connect with the coupling, the speed change mechanism and the load to output power. The electric power and power mechanism as described in Claim 7, wherein the rotating part outside the disc generator can be further equipped with ring-shaped metal, which can rotate with the rotating shaft to increase the moment of inertia and make power transmission smoother. The electric power and power mechanism according to any one of claims 1 to 10, wherein the ring generator and the disk generator are a combination of permanent magnets and coils. The electric power and power mechanism according to any one of claims 7 to 10, wherein the disc generator can also be in the form of a semiconductor circuit board.

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