KR20190080134A - Module type Hybrid PCS - Google Patents

Abstract

The present invention relates to a modular hybrid power supply device for allowing a power conversion unit for power conversion of renewable energy to be configured in a module type so as to be easily replaced as well as to be used corresponding to a power generation source of the renewable energy. The modular hybrid power supply device is a power supply device which receives power generated by the power generation source of the renewable energy, converts a level of the received power into a predetermined level, and supplies the converted power to a home or a system or stores the converted power in a storage device. The modular hybrid power supply device comprises: two or more power conversion units provided with a DC/DC and an AC/DC converter so as to perform conversion into a DC voltage of a predetermined level; a DC/AC converter unit converting a power voltage converted by the power conversion unit into an AC voltage of the predetermined level; and a battery unit storing the DC voltage of the power conversion unit wherein the power conversion unit is provided with an operation lever for selecting one of the DC/DC and the AC/DC converter.

Description

[0001] The present invention relates to a module type hybrid power supply device,

The present invention relates to a power supply apparatus, and more particularly, to a power supply apparatus capable of selectively using a renewable energy generation source, while being capable of changing the amount of power supplied by the power conversion unit To a modular hybrid power supply capable of effectively supplying power.

As a means of coping with energy such as coal, petroleum, and nuclear power as well as environmental concerns, new and renewable energy generation methods using solar and wind power are being studied. In addition, these solar and wind power generators are continuously undergoing research and development to meet better quality power generation performance beyond the initial research stage. For example, in order to improve power generation performance by improving each component element and layout for solar power generation and wind power generation, research on a hybrid power generation system in which solar power and wind power generation methods are mutually combined is actively carried out have.

In this type of power generation system, a system for charging and storing power generated by photovoltaic power generation and wind power generation in a battery and supplying power as needed is being constructed. As the energy storage device can be used to store the renewable energy, when the system is disconnected due to lack of electric energy generated by sunlight or wind power, ) Power supply efficiency can be stabilized in the time zone.

However, such a conventional power generation system using new and renewable energy has been limited to use the renewable energy determined according to the initially designed power generation type and power generation capacity. For example, power converters or power supplies have been structurally unstructured so that only power generated by photovoltaic or wind power is supplied, and thus limited to using only a single renewable energy of fixed capacity . Accordingly, a system has been proposed in which one of two or more renewable energy is selectively used. For example, a power supply path is selected by using a switching device, and power generated by one of the renewable energy is supplied. However, this method is also less efficient than the conventional method because it uses a renewable energy and uses it as power generation power.

In addition, the conventional power generation system is a type in which power generated by new and renewable energy is supplied to both the grid and the battery. As a result, some of the generated power can not be used. Therefore, it is inefficient to use the generated power. For example, if the power generated by the photovoltaic power generation is 5 kW, all of its power is supplied to the power supply, and the power supply is the type that stores all 5 kW in the battery or transmits it to the grid side.

Accordingly, it is an object of the present invention to provide a hybrid power supply device that can be easily replaced by configuring a power conversion unit for power conversion of new and renewable energy into a module type, thereby selecting and using power generation power of renewable energy will be.

It is another object of the present invention to provide a hybrid power supply apparatus including a power conversion unit having a power amount adjustment function so that the power conversion unit can adjust the amount of power supplied to the system or battery.

It can be said that the objects of the present invention can be effectively and flexibly design and configure the power supply device in accordance with the change of the power source or the power capacity.

According to an aspect of the present invention, there is provided a power supply apparatus for supplying power generated by a generator of new and renewable energy to a predetermined level and supplying the generated power to a home or a system or storing the power into a storage device At least two power conversion units having a DC / DC converter and an AC / DC converter together to convert the DC voltage to a predetermined level; A DC / AC converter unit for converting the power supply voltage converted by the power conversion unit into an AC voltage of a predetermined level; And a battery unit for storing a DC voltage of the power conversion unit, wherein the power conversion unit is provided with an operation lever for selecting one of the DC / DC converter and the AC / DC converter. Supply device.

According to another aspect of the present invention, there is provided a power supply apparatus for supplying power generated by a generator of new and renewable energy to a predetermined level and then supplying the generated power to a home or a system or storing the power into a storage device, At least one power conversion unit incorporating a DC / DC converter or an AC / DC converter for converting the voltage into a voltage; A DC / AC converter unit for converting the power supply voltage converted by the power conversion unit into an AC voltage of a predetermined level; And a battery unit for storing a DC voltage of the power conversion unit, wherein the power conversion unit, the DC / AC converter unit, and the battery unit are configured to be able to be coupled to and separated from the power supply unit. And provides a hybrid power supply.

Here, the power supply device may include: a housing main body; A DC / AC converter unit, and a battery unit are inserted into the housing main body so that the power conversion unit, the DC / AC converter unit, and the battery unit are inserted into the housing main body; And a control unit for controlling the mutual communication state when the power conversion unit, the DC / AC converter unit, and the battery unit are coupled with the coupling unit.

The power supply device according to another aspect of the present invention may further include an operation lever provided for each of the power conversion units and for adjusting a power supply amount so that only a part of the power produced by the power generation module of the renewable energy is supplied, The control unit may receive only the amount of power set by the operation lever, and store the remaining amount of power in the battery unit. Further, when the power conversion units are two or more, the same renewable energy may be supplied or different renewable energy may be supplied.

Further, the power conversion unit of the power supply device may further include a charging unit for an electric vehicle for charging the battery of the electric vehicle.

According to the present invention, the power conversion unit of the power supply device can be replaced, and the structure and scale of the power generation specification can be easily changed according to the user's selection.

Further, the present invention can adjust the amount of power supplied from the power conversion unit, thereby easily supplying only the amount of power required by the load, and charging and storing the remaining amount of power in the battery unit. .

1 is a block diagram of a modular hybrid power supply apparatus according to an embodiment of the present invention;
2 is a perspective view illustrating an example of a modular hybrid power supply apparatus according to an embodiment of the present invention.
3 is a block diagram of a modular hybrid power supply apparatus according to another embodiment of the present invention.
4 is a perspective view illustrating an example of a modular hybrid power supply apparatus according to another embodiment of the present invention.

Hereinafter, the present invention will be described in more detail based on the embodiments shown in the drawings. 1 and 2 are views for explaining a modular hybrid power supply apparatus (hereinafter referred to as a 'power supply apparatus') according to an embodiment of the present invention. As shown in the figure, the power supply apparatus 100 is provided with power conversion units 110 and 120 for receiving the power generated by the renewable energy generation source and converting the power into an appropriate power according to the load.

The power conversion units 110 and 120 include at least two power conversion units for converting renewable energy. That is, they use the same or different renewable energy. In the embodiment, it is assumed that the first power conversion unit 110 and the second power conversion unit 120 are provided. It goes without saying that the number of the power conversion units can be increased according to the size of the power supply apparatus 100 and the maximum power supply amount.

The first converter 102 for DC / DC conversion and the second converter 104 for AC / DC conversion are incorporated in these power conversion units 110 and 120 together. That is, solar power module as new and renewable energy supplies DC power, and wind power or small power generation module supplies AC power.

The power conversion units 110 and 120 are configured to be capable of being coupled to and detached from the housing body 10 of the power supply apparatus 100. For example, as shown in FIG. 2, the power supply device 100 is formed of a housing body 10 having a substantially rectangular parallelepiped shape. In addition, the housing body 10 is formed with a respective coupling hole 12 in which the power conversion units 110 and 120 can be slidably moved. When the power conversion units 110 and 120, the battery unit 130 and the DC / AC converter unit 140 described below are coupled to the coupling unit 12, the control unit (MCU) 150 Quot;). ≪ / RTI > The controller 150 controls the overall operation of the power supply apparatus 100 of the present invention.

As another example of the power conversion units 110 and 120, a charging unit for charging an electric vehicle may be further added although not shown. In the case of the electric vehicle charging unit, only a converter for DC / DC conversion may be provided.

The housing main body 10 is also provided with a battery unit 130 and a DC / AC converter unit 140 in a module form, such as the power conversion units 110 and 120, which can be coupled to and detached from the housing main body. The battery unit 130 serves to store the power supplied by the power conversion units 110 and 120 and the DC / AC converter unit 140 converts the power of the power conversion units 110 and 120 It serves to convert the voltage so that it can be supplied to the household or grid side.

The first power conversion unit 110 and the second power conversion unit 120 are provided with operation levers 160 as shown in the figure. The operation lever 160 is for selecting the first converter 102 or the second converter 104. When the operation lever 160 is operated to select any one of the converters, And operates as a solar power conversion unit for receiving and processing DC power from a photovoltaic module or as a wind power conversion unit for receiving AC power from a wind power generation module. That is, according to the present invention, the power conversion units 110 and 120 operate as modules receiving different renewable energy according to the operation of the operation lever 160, They can be used as the same module or as different modules.

The operation lever 160 may also be installed in the battery unit 130. This is because the battery unit 130 may have more than two batteries of a predetermined capacity or different characteristics depending on the battery manufacturer. Therefore, the operation lever 160 is operated to select a battery capacity or a mode for each battery manufacturer. The first converter 102 or the second converter 104 provided in the power conversion units 110 and 120 may be installed in the battery unit 130. In this case, So that they can be converted and processed.

A locking device (not shown) is provided in the housing main body 10 and the power conversion units 110 and 120, the battery unit 130, and the DC / AC converter unit 140 coupled to the housing main body 10. The locking device is used to prevent the locking device from being arbitrarily separated by an unspecified number in a state where the units 110, 120, 130, and 140 are coupled to the housing main body 10. That is, only a legitimate user (operator) can replace the unit. The locking device may be employed in various ways. For example, a knob is provided, and the knob is turned only by a correct input of a password provided on the front face of the unit, so that the unit can be detached from the housing body 10.

As described above, the modular hybrid power supply apparatus according to the first embodiment of the present invention includes a first converter 102 for converting DC power to DC power into each of the power conversion units 110 and 120, And the operation lever 160 for selecting the first converter 102 or the second converter 104 is formed to be exposed to the outside. Accordingly, the power conversion units 110 and 120 can be set in accordance with the operation of the operation lever 160 in accordance with the solar power generation module, the wind power generation module, the small power generation module, and the like, Or it can be designed and operated flexibly according to the change of power capacity.

Next, another embodiment of the present invention will be described with reference to Figs. 3 and 4. Fig. As shown in the figure, a modular hybrid power supply (hereinafter, referred to as 'power supply') 200 according to another embodiment of the present invention may also include a first power conversion unit 210 and a second power conversion unit 220 And a battery unit 230 for storing power supplied from the power conversion units 210 and 220. [

The first power conversion unit 210, the second power conversion unit 220, and the battery unit 230 are each formed in the form of a module so that they can be combined with and separated from the housing of the power supply 200 . For example, as shown in Fig. 4, the electric power supply apparatus 200 has a housing body 10 having a substantially rectangular parallelepiped shape. In addition, the housing body 10 is formed with a respective coupling hole 12 in which the units 210, 220, and 230 are slidably moved. It can be seen that the embodiment has a coupling 12 for the first power conversion unit 210, the second power conversion unit 220, the battery unit 230 and the DC / AC converter unit 240, respectively . When the power conversion units 210 and 220 and the battery unit 230 and the DC / AC converter unit 240 are coupled to the respective coupling holes 12, the control unit MCU 250).

In another embodiment, the above-described locking device is provided in the housing body 10 and the power conversion units 210 and 220, the battery unit 230, and the DC / AC converter unit 240, do.

When the power conversion units 210, 220, the battery unit 230, and the DC / AC converter unit 240 can be detached and attached, only the corresponding unit can be repaired and replaced in the event of a failure, Can be effectively operated. Also, the first power conversion unit 210 and the second power conversion unit 220 may be of the same unit or different units. That is, the first power conversion unit 210 can be used as a solar power generation unit, the second power conversion unit 220 can be used as a wind power generation unit, or vice versa. Further, both the first power conversion unit 210 and the second power conversion unit 220 may be used as a solar power generation unit or as a wind power generation unit.

The power supply 200 may arbitrarily configure the number of power conversion units. In other words, although the power conversion unit is limited to two (solar unit, wind unit) in the embodiment, the number of the power conversion units may be increased (for example, two or more solar units may be provided) And another power conversion unit such as a small power unit may be additionally constituted. According to such a configuration, the present invention can flexibly design and operate the power supply 200 because the user can replace and change the power conversion unit according to the structure change and scale of the power generation specification, the change of the power source or the power capacity There is an advantage.

The DC / DC converter 212 and the AC / DC converter 222 are incorporated in the power conversion units 210 and 220. The DC / DC converter 212 converts the DC voltage generated by the sunlight into a DC voltage suitable for the characteristics and the purpose of the load to be supplied. In the embodiment, the DC / DC converter 212 uses a non-isolated unidirectional boost converter. The AC / DC converter 222 converts the AC voltage generated by the wind or small power into the DC voltage suitable for the characteristics of the load to be supplied and the purpose. That is, the generation power differs depending on the type of renewable energy.

Meanwhile, the power conversion units 210 and 220 include an operation lever 214 for adjusting the power supply of the power generation source. That is, the operating lever 214 is operated to receive only some of the power supplied by the power generation module of the renewable energy. This is to prevent power from being consumed unnecessarily and to supply electric power corresponding to the load characteristics. In the present invention, it is preferable that the remaining power other than the power set by the operation lever 214 is stored in the battery unit 230.

Hereinafter, an operation state of the power supply apparatus according to another embodiment of the present invention will be described. 3 and 4, the housing main body 10 includes a first power conversion unit 210, a second power conversion unit 220, a battery unit 230, a DC / AC converter unit 240 ) Is installed. Here, the first power conversion unit 210 is connected to the solar power generation module and is supplied with the power generated by the sunlight. The second power conversion unit 220 is connected to the wind power generation module and receives power generated by the wind power Take an example. Accordingly, the first power conversion unit 210 is connected to the solar module and the second power conversion unit 220 is connected to the wind module in a state where the power supply 200 is installed at a predetermined place.

The solar module and the wind module continuously generate electric power. The generated power is supplied to the first power conversion unit 210 and the second power conversion unit 220, respectively. If the first power conversion unit 210 and the second power conversion unit 220 are set to be capable of receiving the maximum power capacity, for example, 5 kW per hour, by the operation lever 214, the first power conversion unit 210 And the second power conversion unit 220 can receive the maximum power capacity.

The supplied power is converted into a DC voltage by the respective DC / DC converter 212 and the AC / DC converter 222, and then supplied to the household power supply or the system or charged into the battery unit 230. Here, when supplied as a domestic voltage, it is converted into a domestic power source (single phase 200 V / 50 to 50 Hz) through a DC / AC converter 240 and then supplied.

When the power generated by the photovoltaic power generation is 5 kw, the first power conversion unit 210 receives the entire 5 kw and supplies it to the domestic power supply or the system or stores it in the battery unit 230. The same is true of the second power conversion unit 220.

However, in this case, only some power may be required depending on the load characteristics of the system. Therefore, only some power (2 ~ 3kw) should be supplied and used for domestic or grid power. In another embodiment of the present invention, it is proposed to supply only a portion of such power to the load.

The power adjustment of each power conversion unit 210 (220) is possible by the user adjusting each operation lever 214. The operation lever 214 operates a button or a dial to set an amount of power to be supplied. In case of the button, 1kw button, 2kw button, 3kw button, 4kw button and 5kw button are provided, and one of them is set by pressing one of them. In the case of the dial system of another structure, the supplied power amount is displayed according to the direction of rotation of the dial, and the setting can be made in accordance with any one of the power amounts while rotating the dial. Assume that the operating lever 214 is adjusted so that the first power converting unit 210 is set to 2 kW and the second power converting unit 220 is set to 3 kW.

Even if the power produced by the solar module and the wind module is supplied to the first power conversion unit 210 and the second power conversion unit 220, each of the power conversion units 210 and 220 can receive the maximum power Only the set voltage set by the operation lever 214, that is, 2kw and 3kw, is received among the maximum allowable powers. The supplied power is converted into a DC voltage by the DC / DC converter 212 and the AC / DC converter 222, and then supplied to the household power supply or the system. In this way, each of the power conversion units 210 and 220 can adjust the amount of power that can be supplied to the power conversion units 210 and 220, .

According to another embodiment of the present invention, some of the power produced by the solar module and the wind module is charged into the battery unit 230. [ That is, power supplied to the power conversion units 210 and 220 and the remaining power. The power supply voltage charged and stored in the battery unit 230 may be a standby power used when the power supply voltage is not normally supplied in the event of a problem such as disconnection in the household power supply or the system.

Meanwhile, the power supply device 200, which is another embodiment of the present invention, may also be used to charge the battery of the electric vehicle. As described above, since the power conversion units 210 and 220 of the power supply unit can be coupled to and separated from the housing body 10 in a module form, it is possible to mount a charging unit for an electric vehicle in place of any one of the power conversion units . It is a matter of course that a DC / DC converter for converting into a voltage for an electric vehicle is also provided in the electric vehicle charging unit mounted as described above. It is a matter of course that the electric vehicle can be charged using the power supply voltage stored in the battery unit 230.

As described above, according to the embodiments of the present invention, the power conversion unit of the power supply unit can be replaced, and the structure and size of the power generation specification can be easily changed according to the user's selection. So that only the amount of power required by the load can be supplied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent that modifications, variations and equivalents of other embodiments are possible. Therefore, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: power supply unit 110, 120: power conversion unit
102: first converter 104: second converter
130: Battery unit 140: DC / AC converter unit
150: control unit 160: operation lever
10: Housing body 12:

Claims (6)

A power supply device 100 that receives power generated by a power generation module of new and renewable energy, converts the power to a predetermined level, and supplies the generated power to a home, a system, or a storage device,
At least two power conversion units (110) (120) having a DC / DC converter (102) and an AC / DC converter (104) together to convert the DC voltage into a predetermined level;
A battery unit 130 for storing a DC voltage of the power conversion units 110 and 120; And
And a DC / AC converter unit (140) for converting the power supply voltage converted by the power conversion units (110, 120) into an AC voltage of a predetermined level,
Characterized in that the power conversion unit (110,120) comprises an operating lever (160) for selecting one of the DC / DC converter (102) and the AC / DC converter (104) . A power supply device 200 that receives power generated by a power generation module of new and renewable energy, converts the power to a predetermined level, and supplies the generated power to a home, a system, or a storage device,
At least one power conversion unit (210) (220) incorporating a DC / DC converter (212) or an AC / DC converter (222) for converting the DC voltage into a predetermined level of DC voltage;
A battery unit 230 for storing a DC voltage of the power conversion units 210 and 220; And
And a DC / AC converter unit 240 for converting the power supply voltage converted by the power conversion units 210 and 220 into an AC voltage of a predetermined level,
Wherein the power conversion unit (210) (220), the battery unit (230), and the DC / AC converter unit (240) are configured to be capable of being coupled to and separated from the power supply (200) Supply device. 3. The method according to claim 1 or 2,
The power supply apparatus (100) (200)
A housing main body 10;
(12) formed in the housing main body (10) so that the power conversion unit, the DC / AC converter unit, and the battery unit can be inserted and coupled; And
And a control unit (150, 250) for controlling the mutual communication state when the power conversion unit, the DC / AC converter unit, and the battery unit are coupled to the coupling unit (12) Device. 3. The method of claim 2,
The power supply apparatus 200 includes:
Further comprising an operation lever (214) provided for each of the power conversion units (210, 220) and adjusting an amount of power supplied to receive only a part of the power generated by the power generation module of the renewable energy,
Wherein the control unit (250) receives only the power set by the operation lever (214), and stores the remaining power in the battery unit (230). 3. The method of claim 2,
Wherein when the power conversion units (210) and (220) are two or more, they can receive the same renewable energy or can receive different renewable energy. 3. The method according to claim 1 or 2,
The power conversion unit (110) 120, 210, 220 further includes a charging unit for an electric vehicle for charging the battery of the electric vehicle.

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