CN205791774U - High efficiency uninterrupted power supply(ups) - Google Patents

Abstract

This utility model discloses a kind of high efficiency uninterrupted power supply(ups), including the alternating current-direct current inverter being connected to external power supply, the outfan of alternating current-direct current inverter is connected to switch controller of power supply and charhing unit, switch controller of power supply is connected with electrical equipment, charhing unit is connected with accumulator, solar panel is connected with accumulator, photovoltaic cell and wind energy plant and accumulator are connected with switch controller of power supply by inverter, photovoltaic switch it is connected with between photovoltaic cell and inverter, wind energy switch it is connected with between wind energy plant and inverter, cell switch it is connected with between accumulator and inverter.Solar panel is connected with accumulator, ensure that the electric energy storage of accumulator, simultaneously can be under the control of switch controller of power supply, the new energy of preferential use photovoltaic cell and wind energy plant is to electrical equipment, while guaranteeing that high efficiency is powered, reduce the beneficial effect of cost.

Description

High Efficiency Uninterruptible Power Supply Unit

technical field

The utility model relates to the technical field of electric equipment, in particular to a high-efficiency uninterruptible power supply device.

Background technique

An uninterrupted power supply (Uninterrupted Power Supply, UPS) is a device that can continue to supply power from an external power supply when there is a power failure, and its power comes from its internal battery.

In an existing uninterruptible power supply, the external power supply is connected to the input terminal of the power conversion switch and the input terminal of the external power supply charging circuit through a filter circuit, and the output terminal of the external power supply charging circuit passes through the battery and the inverter in turn and is converted to the power supply. The other input terminal of the switch is connected, and the output terminal of the power conversion switch is connected with the power supply terminal of the electrical equipment (such as a computer).

When the external power supply works normally, the power conversion switch controls the external power supply to directly supply power to the electrical equipment, and at the same time the external power supply charges the storage battery through the external power supply charging circuit. The electrical equipment is powered, thus ensuring that the electrical equipment can continue to work when the external power supply fails for a short time.

However, when the external power supply fails or fails for a long time and the electric energy of the storage battery cannot satisfy the electrical equipment, the electrical equipment will have to stop working, and the above-mentioned power supply is not suitable for use in occasions where the mains voltage fluctuates greatly.

Therefore, it is necessary to design a new high-efficiency uninterruptible power supply device to solve the above technical problems.

Utility model content

Aiming at the problems existing in the background technology, the purpose of this utility model is to provide a high-efficiency uninterruptible power supply device, which uses new energy as the priority energy source to ensure high-efficiency power supply and reduce costs.

The technical solution of the utility model is achieved in the following way: a high-efficiency uninterruptible power supply device, including an AC-DC converter connected to an external power supply, and the output terminals of the AC-DC converter are respectively connected with a power conversion controller and a charging unit, the power conversion controller is connected to the electrical equipment, the charging unit is connected to the storage battery, the solar panel is connected to the storage battery, the photovoltaic cell, the wind energy device and the storage battery are connected to the power conversion controller through the inverter, and the connection between the photovoltaic battery and the inverter A photovoltaic switch is provided for the connection between the wind energy device and the inverter, a wind energy switch is provided for the connection between the wind energy device and the inverter, and a battery switch is provided for the connection between the storage battery and the inverter.

In the above technical solution, the AC-DC converter is composed of two diodes and two capacitors.

In the above technical solution, the inverter is composed of two control switches, an inductor and a capacitor.

In the above technical solution, a power monitoring unit is connected between the output end of the external power supply and the power conversion controller.

In the above technical solution, a transformer is provided between the inverter and the power conversion controller.

In the above technical solution, a filter is provided between the transformer and the power conversion controller.

The high-efficiency uninterruptible power supply device of the utility model ensures the electric energy storage of the battery by increasing the connection between the solar panel and the battery, and at the same time, the photovoltaic battery and the wind energy device are connected with the power conversion controller through the inverter, which can be used in the power conversion Under the control of the controller, the new energy from photovoltaic cells and wind energy devices is given priority to supply power to electrical equipment, which is more suitable for occasions where the mains power is unstable. In this way, new energy is used as the priority energy source to ensure high-efficiency power supply and at the same time achieve the beneficial effect of reducing costs.

Description of drawings

FIG. 1 is a structural schematic diagram of the high-efficiency uninterruptible power supply device of the present invention.

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

As shown in Figure 1, a high-efficiency uninterruptible power supply device described in the utility model includes an AC-DC converter 1, a power supply monitoring unit 2, a power conversion controller 3, a charging unit 4, a storage battery 5, and a solar battery board 6, photovoltaic cell 7, wind energy device 8, inverter 9.

The AC-DC converter 1 is connected to an external power source 100 for converting current. The AC-DC converter 1 consists of two diodes and two capacitors. The input end of the power conversion controller 3 is connected to the output end of the AC/DC converter 1 , and the output end of the power conversion controller 3 is connected to the electrical equipment 10 for switching and controlling the power supply mode of the electrical equipment 10 .

Further, a power monitoring unit 2 is connected between the output terminal of the external power supply 100 and the power conversion controller 3. When the power monitoring unit 2 detects that the external power supply 100 is unstable or faulty, the power conversion controller 3 controls to cut off the power supply. The external power supply supplies power to the electrical equipment 10 .

The input end of the charging unit 4 is connected to the output end of the AC/DC converter 1, the output end of the charging unit 4 is connected to the battery 5 for charging the battery 5, and the output end of the solar panel 6 is also connected to the battery 5 , to ensure that the battery 5 can also be continuously charged when the external power supply 100 is unstable or stopped.

The photovoltaic cell 7, the wind energy device 8 and the storage battery 5 are all connected to the power conversion controller 3 through the inverter 9, and a photovoltaic switch 71 is connected between the photovoltaic cell 7 and the inverter 9, and the connection between the wind energy device 8 and the inverter 9 A wind energy switch 81 is connected between them, and a battery switch 51 is connected between the storage battery 5 and the inverter 9. Under the control of the power conversion controller 3, the photovoltaic switch 71 or the wind energy switch 81 can be preferentially turned on, and the photovoltaic battery 7 and the The new energy of the wind energy device 8 supplies power to the electrical equipment 10, which is more suitable for occasions where the mains power is unstable. In this way, new energy is used as the priority energy source to ensure high-efficiency power supply and at the same time achieve the beneficial effect of reducing costs.

In addition, a transformer 11 is provided between the inverter 9 and the power conversion controller 3, and a filter 12 is provided between the transformer 11 and the power conversion controller 3, so as to further stabilize the current passing through the source conversion controller 3 , ensuring the power supply quality of the electric device 10 .

The high-efficiency uninterruptible power supply device of the utility model ensures the electric energy storage of the battery 5 by increasing the connection between the solar battery panel 6 and the battery 5, and is equipped with a photovoltaic battery 7 and a wind energy device 8 through an inverter 9 and a power conversion controller 3 connection, under the control of the power conversion controller 3, the new energy of the photovoltaic cell 7 and the wind energy device 8 can be preferentially used to supply power to the electric equipment, which is more suitable for occasions where the mains power is unstable. In this way, new energy is used as the priority energy source to ensure high-efficiency power supply and at the same time achieve the beneficial effect of reducing costs.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present utility model shall be included in the Within the protection scope of the present utility model.

Claims (6)

1. A high-efficiency uninterruptible power supply device, characterized in that: comprise an AC-DC converter connected to an external power supply, the output end of the AC-DC converter is respectively connected with a power conversion controller and a charging unit, and the power conversion control The inverter is connected to the electrical equipment, the charging unit is connected to the storage battery, the solar panel is connected to the storage battery, the photovoltaic cell, the wind energy device and the storage battery are connected to the power conversion controller through the inverter, and a photovoltaic cell is connected to the inverter. A switch, a wind energy switch is connected between the wind energy device and the inverter, and a battery switch is connected between the storage battery and the inverter. 2. The high-efficiency uninterruptible power supply device according to claim 1, characterized in that: the AC-DC converter is composed of two diodes and two capacitors. 3. The high-efficiency uninterruptible power supply device according to claim 1, wherein the inverter is composed of two control switches, an inductor and a capacitor. 4. The high-efficiency uninterruptible power supply device according to claim 1, characterized in that: a power monitoring unit is connected between the output terminal of the external power supply and the power conversion controller. 5. The high-efficiency uninterruptible power supply device according to claim 1, wherein a transformer is provided between the inverter and the power conversion controller. 6. The high-efficiency uninterruptible power supply device according to claim 5, wherein a filter is provided between the transformer and the power conversion controller.