KR101664340B1 - ESS Container - Google Patents

Abstract

The present invention relates to an energy storage container, comprising: a tray where a battery module is mounted along both inner sides of the container; and a vehicle moved to the battery module of both sides mounted in the tray without interference. The vehicle is installed to be moved to the same location by enabling at least one guide groove to be formed in a moving passage formed on a floor surface of the container.

Description

Energy storage container {ESS Container}

The present invention is characterized in that a tray on which a battery module is mounted is provided along both inner sides of a container, and a bogie is disposed on both sides of a battery module mounted on the tray so as to move without interference, And at least one guide groove is formed in the energy storage container so as to move at the same position.

Generally, an energy storage device is a storage device that stores an over-produced electric power and transmits electricity when a power shortage occurs. It is used to stabilize the output when producing new and renewable energy such as solar power and wind power, but it can be used not only in case of emergency such as power failure but also as a core infrastructure for electric vehicle supply.

And, it is attracting attention as a product that can save electricity rate by storing late-night power etc. at home and allowing it to be used at peak time, and lithium ion battery is used as an energy storage method.

In recent years, as a portable energy storage device that maximizes the advantages of containers, it is applying a container system that explodes megawatt-class energy storage devices from several hundred kWh.

1, the structure of the container for an energy storage device is disclosed in Japanese Patent No. 1381592, which is related to such a technology. The structure is composed of an upper plate 10, a lower plate 20, a side wall 30, The upper and lower walls 10 and 30 are formed by the double partition wall 11 and the end door 40 is formed in the inner space 50. [ A double transparent door 51 is installed at a predetermined distance from the energy storage device, and a cradle 52 for storing the energy storage device is disposed.

At this time, a solar panel 12 is formed on the outer surface of the upper plate 10, and a support table 21 is provided on the lower surface of the lower plate 20 to separate the container from the ground at a predetermined interval, (30) is further provided with a connection portion (31) through which an external line can be inserted so as to be connected to an external power converter or the like.

A thermostatic and hygroscopic device 61 is installed at one end of the side wall 30 of the internal space 50 and an automatic fire hydrant 62 is installed close to the thermostatic and hygroscopic device 61, A sensor 64 is installed in the vicinity of the IP CCTV 63 and the upper plate 10 of the internal space 50 is provided with an IP CCTV 63, A sprinkler 65 is installed at one end, and a control unit 66 is installed in cooperation with each of the devices to monitor the inside situation of the container in real time.

However, there is a disadvantage in that the energy storage device container is not equipped with a separate equipment for transporting the energy storage device, which is a heavy object, in the space, to the cradle 52, thereby increasing workload.

In addition, there is a disadvantage in that safety safety due to falling or the like is generated, and damage of the energy storage device due to collision occurs.

SUMMARY OF THE INVENTION It is an object of the present invention to remedy the above problems by preventing damage due to collision when a battery module is loaded, allowing a battery module as a heavy load to be easily loaded, So that the workload can be minimized and the power supply can be automatically performed to facilitate maintenance and management.

In order to accomplish the above object, according to the present invention, there is provided a battery pack comprising: a tray on which a battery module is mounted along both sides of a container; a bogie moving on both sides of the battery module mounted on the tray without interference; And at least one guide groove is formed in the movement passage formed on the bottom surface so as to be moved along the guide groove.

The height adjustment means includes a plurality of links folded in a state of intersecting the conveying motor and the conveying motor, and a plurality of links connected to the link, An energy storage container is provided as a support plate.

Further, the tray of the present invention provides an energy storage container to which a tag is attached, and a reader is attached to a support plate of the carriage so that the tag is recognized.

In addition, in the bottom of the vehicle of the present invention, a wheel connected to a rotating motor is provided, an encoder and a brake device are provided in the wheel, and a control unit, which is connected to the rotary motor and the encoder, Provide a container.

The control unit of the present invention is installed so as to operate through a remote control signal of an electric or electronic cordless remote control. When the signal is not supplied for a predetermined period of time or the electric power is below a predetermined amount, And the power supply unit is integrally provided with a power supply unit on one side of the container corresponding to the power inlet unit.

As described above, according to the present invention, it is possible to prevent damage due to collision when loading a battery module, to easily load a heavy battery module, and to move to an accurate loading position by automation, So that the maintenance and management are facilitated.

1 is a side view showing a conventional container for an energy storage device.
2 is an external perspective view of a container according to the present invention.
3 is an internal perspective view of a container according to the present invention.
4 is an operational state diagram of a bogie applied to a container according to the present invention.
FIG. 5 and FIG. 6 are installation states of the guide groove for moving the bogie according to the present invention, respectively.
FIGS. 7 and 8 are perspective views illustrating the operation state of the bogie according to another embodiment of the present invention, respectively.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an external perspective view showing a container according to the present invention, FIG. 3 is an internal perspective view showing a container according to the present invention, FIG. 4 is an operational state view of a container applied to a container according to the present invention, FIGS. 7 and 8 are perspective views illustrating operation states of the bogie according to another embodiment of the present invention, respectively.

The energy storage device E of the present invention is provided with a tray 110 on which the battery module 200 is mounted along both sides of the inside of the container 100.

At this time, the carriage 300 is positioned in the movement passage 150 provided on the bottom surface of the container 100 so as to move without interference to the battery modules 200 on both sides of the tray 110.

At least one guide groove 155 is formed in the moving passage 150 so that the carriage 300 always moves in the same direction.

At this time, the cover 157 may be elastically installed in the guide groove 155.

Further, the guide protrusion 390 protruding to the lower portion of the truck, which is moved as the wheel 330, may be installed to move from the fixed position along the guide groove.

At this time, the cover 157 may be elastically installed in the guide groove 155.

In addition, the bogie 300 is installed so as to be movable manually or by power. When the bogie 300 is manually moved, the bogie 300 is installed in the moving passage 150 and is provided with a plurality of positioning holes 159 corresponding to the respective trays, And is positioned by a stopper 359 elastically supported on the carriage.

The bogie 300 is installed to raise and lower through the height adjusting means 400.

The height adjusting means 400 includes a plurality of links 430 which are folded in a state of intersecting the feed motor 410 with the feed motor and a support plate 450 connected to the link.

A tag 610 is attached to the tray 110 or the battery module 200 and a reader 630 is integrally installed on one side of the support plate 450 to recognize the tag 610.

In addition, a wheel 330 connected to the rotary motor 310 is provided on the bottom of the bogie 300, and an encoder 335 and a braking device 337 are provided on the wheel 330.

At this time, a control unit 800 connected to the rotary motor 310, the feed motor, the encoder 335, the reader 630 and the like is supplied to the bogie.

The control unit 800 is installed to operate through a remote control signal of an electric or wireless remote controller and is installed so that the signal is not supplied for a predetermined period of time or the bogie is moved to the initial position when the power is less than a predetermined amount.

A power supply unit 830 having a safety cover 831 is installed on one side of the inner surface of the container 100 corresponding to the power supply inlet unit, The power source of the power source 830 is installed to be supplied from the energy storage device E.
That is, the control unit 800 includes a power supply unit 830 having a plug shape and connected to the charger so that the power supply unit 810 having a plug shape protruding to one side of the car is inserted into the container 100, And the power supply unit is connected to the power supply unit during the initial position of the vehicle by the signal of the control unit so that the power supply is automatically supplied.
At this time, the power supply unit 830 is provided with a safety cover 831 that rotates inward when the power-on unit enters.

The operation of the present invention constructed as described above will be described.

2 to 8, the energy storage device E of the present invention includes a tray 110 on which the battery module 200 is mounted along both sides of the inside of the container 100, It is possible to manufacture an energy storage device having a desired capacity when the battery module 200 is mounted on the battery module 200.

The energy storage device E can be easily moved to a mounting position by using a tractor, a crane, or the like through a plurality of wheels (not shown) or a ring or the like provided at an upper portion of the container on the bottom surface of the container.

At this time, the battery module 200, which is a heavy product, is easily moved through the carriage 300 on the mounting of the tray 110 located at a high altitude in a narrow or narrow space inside the container 100.

In addition, the bogie 300 is installed to be movable manually or by power so as to easily transport a plurality of heavy battery modules 200.

At this time, a plurality of positioning holes 159, which are provided in the moving passage 150 to correspond to the respective trays when the carriage 300 is manually moved, and stoppers 359 fixed to the carriage and elastically supported by the carriage Position.

That is, when the stopper 359 is pulled and rotated, the stopper is fixed to the carriage 300 in a state of being elastically compressed so that the stopper 359 can be moved. When the stopper is rotated in the positioning hole 159, the stopper is lowered and inserted and positioned.

At this time, a cover (not shown) is elastically supported in the positioning hole 159 through a spring to prevent foreign substances from being introduced.

In addition, at least one guide groove 155 is formed in the moving passage 150 provided at the bottom of the container 100 so that the wheel 330 of the carriage 300 is inserted and moved, (200) mounted on both sides of the battery module (110) without interference.

At this time, when the cover 157 is elastically installed in the guide groove 155, foreign substances or the like may be prevented from entering the guide groove 155 when not in use.

In addition, only one guide groove 155 may be formed, and when the carriage 300 is supported by the guide protrusion 390 protruding from the center of the carriage 300, The same effect of moving in a fixed position is realized.

The bogie 300 is provided with height adjusting means 400 for operating a signal such as a remote controller (not shown) linked to the controller 800 so that the battery module 200 can be easily loaded at a high altitude.

The height adjusting means 400 includes a plurality of links 430 that are folded in a state of intersecting the feed motor 410 and the feed motor and a support plate 450 connected to the link, The battery module 200 mounted on the battery 450 can be easily raised and lowered to a desired position.

The tag 610 is attached to the tray 110 or the battery module 200 and the reader 630 is installed on one side of the support plate 450 so that the tag 610 is recognized. 800, the loading position of the battery module 200 is input in advance, and the carriage 300 is automatically moved to a desired position by the tag and the reader.

In addition, a wheel 330 connected to the rotary motor 310 is provided on the bottom of the bogie 300, and an encoder 335 and a braking device 337 are provided on the wheel 330, By precisely estimating the distance and positioning it to be fixed, it is possible to work safely.

At this time, the control unit 800 connected to the rotation motor 310, the feed motor, the encoder 335, the reader 630, and the like is further provided in the bogie so that the battery module can be loaded by automation.

Then, the control unit 800 is installed to operate through a remote control signal of a remote control signal of a wireless communication, or to be moved to an initial position when a signal is not supplied for a predetermined time or when the power is less than a predetermined amount, This is possible.

In addition, the power supply unit 810 having a charger is installed in the control unit 800 with a power supply unit 830 having a safety cover 831 on one side of the inner side of the container 100 corresponding to the power supply inlet unit When not in use, the power will be supplied automatically so that it will always be charged in a stable state.

At this time, the power supply of the power supply unit 830 is automatically supplied from the energy storage E.

100 ... container 110 ... tray
150 ... travel passage 155 ... guide groove
200 ... battery module 300 ... car
410 ... Feed motor 430 ... Link
610 ... tag 630 ... reader
800 ... control unit

Claims (6)

A tray on which a battery module is mounted is provided along both inner sides of the container, and a bogie having wheels for moving without interfering with both battery modules mounted on the tray,
Wherein at least one guide groove is formed in a moving passage formed on a bottom surface of the container so that one side of the carriage is supported and installed to move in a predetermined position,
The bogie includes a wheel and a rotating motor connected to the wheel. The wheel is provided with an encoder and a braking device. The bogie further includes a controller connected to the rotating motor and the encoder to receive power,
The control unit is installed to operate through a remote control signal of an electric or a wireless remote controller and is installed to move to an initial position when no signal is supplied for a predetermined time or when a power supply is less than a predetermined amount,
A power supply unit having a charger is connected to one side of the truck and a power supply unit having a safety cover rotatable inward is installed at one side of the container to correspond to the power inlet unit, Wherein the power inlet is installed to be connected to the power supply when the power storage unit is moved to the initial position. The energy storage container according to claim 1, wherein the height adjusting means comprises a plurality of links folded in a state of intersecting with the feed motor and the feed motor, and a support plate connected to the link. The energy storage container of claim 1, wherein a reader is attached to the support plate of the bogie so as to recognize the tag when the tag is attached to the tray or the battery module. delete delete The energy storage container according to claim 1, further comprising a plurality of positioning holes corresponding to the respective trays in the movement passage, and a stopper fixed to the positioning holes and elastically supported on the carriage.

Images