CN206789963U - A kind of intelligent energy-storage box becomes - Google Patents

Abstract

A kind of intelligent energy-storage box becomes, and is made up of some, and the energy-storage box, which becomes, to be included：Casing, High-voltage Incoming Cabinet, transformer case, low-voltage distribution cabinet, energy storage cabinet, energy storage cabinet door, energy-storage units, sliding guide mechanism, inverter, case lid, heat dissipation channel, supply fan, exhaust fan, shutter, display screen and wireless transmission antenna, the beneficial effects of the utility model are：The structure composition become by the intelligent energy-storage box, it can effectively ensure that the position of centre of gravity that whole case becomes, and energy-storage units and other equipment are separated, avoid the heat transfer of energy-storage units and other equipment and dust is accumulated in energy storage cabinet caused by radiating, ensure energy-storage units and its steady operation and safety of control system, meanwhile be advantageous to the maintenance and replacing of energy-storage units.

Description

An intelligent energy storage box

technical field

The utility model relates to the field of power transmission and transformation equipment, in particular to an intelligent energy storage box transformer.

Background technique

The full name of the box-type transformer is a box-type transformer, which is a substation that combines high-voltage power receiving, transformer step-down and low-voltage distribution functions organically, and is installed in a box. Power stations, etc., have become emerging complete power distribution devices. The conventional terminal power distribution system below 10kv adopts passive power regulation mode, that is, the feed power is determined by the actual load demand, but it is not allowed to meet the demand at any time to exceed the capacity of the box-type power distribution transformer, but in actual application, with the power consumption The gradual increase of the load peak-to-valley difference increases year by year, but the actual utilization rate of the distribution network is declining. This problem can be solved well by adding energy storage units to the box-type transformer.

However, the energy storage units in existing box-type substations are basically arranged side by side with high-voltage cabinets, transformer cabinets, and power distribution cabinets. Such an arrangement not only makes the overall center of gravity structure of the box-type substation unstable, but also The optimal working temperature and working environment of the energy storage unit are different from other devices, and it is easy to cause the heat in the energy storage unit and other devices to transfer to each other, and a large amount of dust accumulates, resulting in the instability of the energy storage unit and its control part. Thereby affecting the normal use of the box change, meanwhile, it is not easy to repair and replace the energy storage unit.

Utility model content

Based on the problems existing in the existing energy storage box transformer, the purpose of the utility model is to provide an intelligent energy storage box transformer.

The purpose of this utility model is mainly achieved through the following technical solutions.

An intelligent energy storage box change, which includes: a box body, a high-voltage incoming line cabinet, a transformer cabinet, a low-voltage power distribution cabinet, an energy storage cabinet, an energy storage cabinet door, an energy storage unit, a sliding guide mechanism, an inverter device, and a box cover , heat dissipation channel, air intake fan, air outlet fan, louvers, display screen and wireless transmitting antenna, the box body is a rectangular structure as a whole, divided into upper and lower parts, and the upper part is installed with high-voltage incoming line cabinet and transformer cabinet in sequence from left to right and low-voltage power distribution cabinets, and open doors on each cabinet body. The lower part is an energy storage cabinet as a whole, and a plurality of energy storage cabinet doors are evenly installed on it. The energy storage units are installed in multiple groups in the energy storage cabinet, and A sliding guide mechanism is installed at the lower end of the energy storage unit to facilitate the maintenance and replacement of the energy storage unit. The inverter device is installed in the door of the middle energy storage cabinet on the energy storage Between the units, the box cover is installed on the upper end of the box body, protruding from the upper edge of the box body and folded down to protect the upper part around the box body. The heat dissipation channel is located on the upper and lower sides of the energy storage cabinet. And it is connected up and down at the left end of the energy storage cabinet, so as to separate the high-voltage incoming line cabinet, transformer cabinet, low-voltage power distribution cabinet and energy storage cabinet to prevent the transfer of heat. The lower end and the right side of the upper end are used to dissipate heat from the energy storage cabinet. The display screen is installed in the depression on the right side of the box to display real-time data in the box. The wireless transmitting antenna is installed on the The upper middle position of the box cover is used to send the data in the box to the control center.

Preferably, the interior of the energy storage cabinet is a connected structure, and an energy control system is installed inside it for controlling the charging and discharging state of the energy storage unit and detecting the state of the energy storage unit.

Preferably, a positioning and locking device is installed on the sliding guide mechanism.

Preferably, a plurality of louvers with downward openings are formed on the outer casings of the air intake fan and the air outlet fan.

Compared with the prior art, the beneficial effect of an intelligent energy storage box transformer of the present invention lies in:

Through the structural composition of the intelligent energy storage box change, the position of the center of gravity of the entire box change can be effectively guaranteed, and the energy storage unit is separated from other equipment to avoid heat transfer between the energy storage unit and other equipment and dust caused by heat dissipation Stacking in the energy storage cabinet ensures the stable operation and safety of the energy storage unit and its control system, and at the same time facilitates the maintenance and replacement of the energy storage unit.

Description of drawings

Fig. 1 is a schematic structural diagram of an intelligent energy storage box transformer according to a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of the principle of an intelligent energy storage box transformer according to a preferred embodiment of the present invention.

In the picture:

1-box; 2-high voltage incoming cabinet; 3-transformer cabinet; 4-low voltage power distribution cabinet; 5-energy storage cabinet; 6-energy storage cabinet door; 7-energy storage unit; 8-sliding guide mechanism; 9 - inverter device; 10 - case cover; 11 - cooling channel; 12 - air intake fan; 13 - air outlet fan; 14 - blinds; 15 - display screen; 16 - wireless transmitting antenna.

detailed description

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. According to these detailed descriptions, those skilled in the art can clearly understand the present invention and implement the present invention. Without departing from the principle of the utility model, the features in different embodiments can be combined to obtain new implementations, or some features in certain embodiments can be replaced to obtain other preferred implementations.

Embodiment 1: Fig. 1 shows a schematic structural diagram of an intelligent energy storage box transformer according to a preferred embodiment of the present invention. It consists of several parts. The energy storage box transformer includes: box body 1, high-voltage incoming line cabinet 2, transformer cabinet 3, low-voltage power distribution cabinet 4, energy storage cabinet 5, energy storage cabinet door 6, energy storage unit 7, sliding guide mechanism 8, inverter Transformer 9, box cover 10, heat dissipation channel 11, air intake fan 12, air outlet fan 13, louvers 14, display screen 15 and wireless transmitting antenna 16, the box body 1 is a rectangular structure as a whole, welded by stainless steel, And anti-corrosion coating is applied inside and outside. It is divided into upper and lower parts. The upper part is installed with high-voltage incoming line cabinet 2, transformer cabinet 3 and low-voltage power distribution cabinet 4 in sequence from left to right, and the doors are opened on each cabinet body. The lower part is integrated It is an energy storage cabinet 5, and at least three sealed energy storage cabinet doors 6 are evenly installed on it, and the interior of the energy storage cabinet 5 is a connected structure, and an energy control system is installed inside it for controlling The charge and discharge state of the energy storage unit 7 and the state of the detection energy storage unit 7, said energy storage unit 7 at least three groups are installed in the energy storage cabinet 5, and a sliding guide mechanism 8 is installed at the lower end of the energy storage unit 7, which is convenient The maintenance and replacement of the energy storage unit 7, and the positioning and locking device is installed on the sliding guide mechanism 8. Below, between a plurality of energy storage units 7 , the box cover 10 is screwed on the upper end of the box body 1 , protruding from the upper edge of the box body 1 and folded down, for upper protection of the surroundings of the box body 1 , the heat dissipation channel 11 is located on the upper and lower sides of the energy storage cabinet 5, and communicates up and down at the left end of the energy storage cabinet 5, thereby separating the high-voltage incoming line cabinet 2, the transformer cabinet 3, the low-voltage power distribution cabinet 4 and the energy storage cabinet 5 , to prevent the transfer of heat, the air intake fan 12 and the air outlet fan 13 are respectively screwed and installed on the right side of the lower end and the upper end of the heat dissipation channel 11, and are used to dissipate heat from the energy storage cabinet 5, and each air intake fan The outside box body 1 of the fan 12 and the air outlet fan 13 is provided with a plurality of louvers 14 with downward openings, and the display screen 15 is installed in the depression on the right side of the box body 1 for displaying the real-time data in the box transformer , the wireless transmitting antenna 16 is installed in the upper middle position of the box cover 10, and is used to send the data in the box to the control center.

Fig. 2 shows a schematic diagram of the principle of an intelligent energy storage box transformer according to a preferred embodiment of the present invention. When the power consumption is low, the external high-voltage power grid first enters the high-voltage incoming line cabinet 2 in the box-type transformer, and then enters the low-voltage power distribution cabinet 4 after being transformed by the transformer in the transformer cabinet 3, and finally sends electricity to the In the user, when the user’s requirements are met, the excess electric energy in the transformer cabinet 3 is charged through the energy control system together with the inverter device 9 in the energy storage cabinet 5, and the energy storage unit 7 is charged. When the charge is full, the inverter is disconnected. change device 9, and detect the state of the energy storage unit 7; when the power consumption peaks, the central processing unit detects that the transformer power in the transformer cabinet 3 cannot meet the needs of users, and it controls the energy control system to turn on the energy storage unit 7 and The inverter device 9 discharges into the low-voltage power distribution cabinet 4 to make up for the lack of electricity consumption of users. At the same time, all data in the high-voltage incoming line cabinet 2, transformer cabinet 3, low-voltage power distribution After being processed by the central processor, the data are sent to the display screen 15 and the wireless transmitting antenna 16 respectively, and finally the wireless transmitting antenna 16 transmits the data to the control center to realize the intelligent control including the energy storage box transformer.

Although the utility model has been described above with reference to specific embodiments, those skilled in the art should understand that many modifications can be made to the configuration and details disclosed in the utility model within the principle and scope of the utility model. The protection scope of the present utility model is determined by the appended claims, and the claims are intended to cover all modifications included in the equivalent literal meaning or scope of the technical features in the claims.

Claims (4)

1. An intelligent energy storage box change is composed of multiple parts, and the intelligent energy storage box change includes: a box body (1), a high-voltage incoming line cabinet (2), a transformer cabinet (3), and a low-voltage power distribution cabinet ( 4), energy storage cabinet (5), energy storage cabinet door (6), energy storage unit (7), sliding guide mechanism (8), inverter device (9), box cover (10), heat dissipation channel (11) , air intake fan (12), air outlet fan (13), blinds (14), display screen (15) and wireless transmitting antenna (16), it is characterized in that, described casing (1) whole is rectangular structure, is divided into There are two parts, upper and lower. The upper part is installed with high-voltage incoming line cabinet (2), transformer cabinet (3) and low-voltage power distribution cabinet (4) in order from left to right, and the doors are opened on each cabinet body. The lower part is an energy storage cabinet (5 ), and a plurality of energy storage cabinet doors (6) are evenly installed on it, and multiple sets of energy storage units (7) are installed in the energy storage cabinet (5), and are installed at the lower end of the energy storage unit (7) There is a sliding guide mechanism (8) to facilitate the maintenance and replacement of the energy storage unit (7). The inverter device (9) is installed in the middle energy storage cabinet door (6) on the energy storage cabinet (5) and is located in the transformer cabinet Right below (3), between a plurality of energy storage units (7), the box cover (10) is installed on the upper end of the box body (1), protruding from the upper edge of the box body (1) and folded down, with In order to protect the upper part of the surroundings of the box body (1), the heat dissipation channel (11) is located on the upper and lower sides of the energy storage cabinet (5), and communicates up and down at the left end of the energy storage cabinet (5), so that the high voltage enters the Line cabinet (2), transformer cabinet (3), low-voltage power distribution cabinet (4) and energy storage cabinet (5) are separated to prevent the transfer of heat, and the intake fan (12) and the outlet fan (13) are multiple Installed on the right side of the lower end and upper end of the heat dissipation channel (11), used to dissipate heat from the energy storage cabinet (5), the display screen (15) is installed in the depression on the right side of the box body (1), used for The real-time data in the box change is displayed, and the wireless transmitting antenna (16) is installed at the upper middle position of the box cover (10), and is used for sending the data in the box change to the control center. 2. The intelligent energy storage box change according to claim 1, characterized in that the interior of the energy storage cabinet (5) is a connected structure, and an energy control system is installed inside it for controlling the energy storage unit (7 ) charging and discharging state and detecting the state of the energy storage unit (7). 3. The intelligent energy storage box transformer according to claim 1, characterized in that a positioning and locking device is installed on the sliding guide mechanism (8). 4. The intelligent energy storage box change according to claim 1, characterized in that, the outer casing (1) of the air intake fan (12) and the air outlet fan (13) is provided with a plurality of louvers (14) with downward openings ).