KR101382416B1 - Energy storage apparatus using the sollar cell - Google Patents

Abstract

One aspect of the present invention provides an energy storage apparatus using a solar which is capable of easily opening or closing a main body cover of a case main body by simplifying the opening and closing operations of the main body cover with respect to the case main body of the energy storage apparatus. An energy storage apparatus using a solar according to an embodiment of the present invention includes a case main body having a cut portion; a door provided on a front surface of the case main body to selectively opening an inner space of the case main body; inner components disposed in the inner space of the case main body to connect the solar cell to a circuit; a main cover for selectively covering the cut portion of the case main body; and a locking member provided to the main cover to allow the main cover to be selectively fixed to the case main body.

Description

Energy storage device using solar cell {ENERGY STORAGE APPARATUS USING THE SOLLAR CELL}

The present invention relates to an energy storage device using a solar cell, and more particularly, to simplify the opening and closing operation of the body cover to the case body of the energy storage device using the solar cell so that the body cover can be easily opened and closed from the case body. It relates to an energy storage device using a solar cell.

A photovoltaic device is a device that converts direct current power generated by a solar cell into alternating current power and supplies power to a load by linking this to a system. If the solar cell's generated power is less than the load's power consumption, the solar cell's power is consumed at the load, and the system supplies the shortfall. And when the power generation of the solar cell is greater than the power consumption of the load, the surplus power remaining from the load of the power generation of the solar cell is supplied to the system as a reverse current.

On the other hand, the power storage system stores surplus power generated in the nighttime from the system in an energy storage device using solar cells, and uses it in a daytime. Such a power storage system suppresses the peak of the generated power during the day and utilizes the night power. The power storage system is an energy storage device using a solar cell and can be installed in a general customer space by reducing the space by using a storage battery and has an advantage of supplying power from the storage battery in case of power failure.

The concept of a solar cell-based energy storage device is a combination of a photovoltaic power generation device and a power storage system. It stores surplus power of a solar cell and a system and can supply the load to the load. It has an advantage that it can supply.

The case body is provided to form the appearance of the energy storage device using the solar cell, the conventional case body is formed integrally, or the upper body and the rear surface and both sides are screw-assembled with each other the case body for replacing the internal parts There was a problem that opening and closing operation is difficult.

An aspect of the present invention is to provide an energy storage device using a solar cell to simplify the opening and closing operation of the body cover to the case body of the energy storage device using a solar cell to easily open and close the body cover in the case body. .

Another aspect of the present invention is to provide an energy storage device using a solar cell that can reduce the opening and closing time of the body cover, the frequency of failure by simplifying the opening and closing operation of the body cover for the case body of the energy storage device using the solar cell Is in.

An energy storage device using a solar cell according to an embodiment of the present invention, a case body having a cutout; and a door provided on the front of the case body to selectively open the internal space of the case body; Internal parts disposed in an inner space of the case body to connect the systems; and a body cover for selectively covering the cutout of the case body; and a body cover provided at the body cover to selectively cover the case body. It characterized in that it comprises a; locking member to be fixed to.

The main body cover may include a first main body cover fitted to a first cutout formed by cutting a part of the rear surface of the case main body, and a second cutout inserted into a second cutout formed by cutting a portion of the upper surface of the case main body. It includes a two-body cover, characterized in that the locking member comprises a first locking portion disposed on both sides of the surface of the first body cover and slidingly coupled to both of the rear surface of the case body.

In addition, the first locking portion, the first A locking portion formed on the right surface of the first body cover, and formed on the left surface of the first body cover symmetrically with the first A locking portion and the same as the first A locking portion And a first locking part having a structure.

In addition, the first A sliding bar and the first locking bar 1B and 1B, which are inserted into the first A groove and the first B groove respectively formed on the right and left surfaces of the first body cover, respectively, and selectively protrude outward. And a sliding bar, a first A leaf spring and a first B leaf spring inserted into and fixed to the first A groove and the first B groove, respectively, connected to the first A sliding bar and the first B sliding bar.

In addition, the first A and the first B locking portion, characterized in that it further comprises a first A handle groove and the first B handle groove, respectively.

The locking member may further include a second locking part disposed at the front end of the second body cover and coupled to an upper surface of the case body.

In addition, the first vent hole formed on both sides of the case body, the second vent hole formed on the upper surface of the main body, and the mesh-shaped filter attached to the case body to prevent the foreign matter from flowing through the first vent hole It is characterized by including.

In addition, the first vent is characterized in that formed in a position parallel to the position of the internal parts.

In addition, the internal component may include a battery pack, an inverter, a converter, a switching device, and a controller.

In addition, the first body cover and the second body cover is formed integrally with each other is characterized in that it has a cross section of the 'b' shape as a whole.

Therefore, the energy storage device using the solar cell according to the embodiment of the present invention has the effect of simplifying the opening and closing operation of the body cover with respect to the case body to easily open and close the body cover in the case body.

In addition, the energy storage device using the solar cell according to an embodiment of the present invention can simplify the opening and closing operation of the body cover to the case body of the energy storage device using the solar cell to reduce the opening and closing time of the body cover, it is possible to reduce the frequency of failure It has an effect.

1 is a front view showing an energy storage device using a solar cell according to an embodiment of the present invention.
2 is a right side view showing an energy storage device using a solar cell according to an embodiment of the present invention.
3 is a rear view showing an energy storage device using a solar cell according to an embodiment of the present invention.
Figure 4 is a left side view showing an energy storage device using a solar cell according to an embodiment of the present invention.
5 is a view for explaining the internal components of the energy storage device using a solar cell according to an embodiment of the present invention.
6 is a view for explaining a locking member of the energy storage device using a solar cell according to an embodiment of the present invention.
7 is an exploded perspective view showing an energy storage device using a solar cell according to an embodiment of the present invention.

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

1 is a front view showing an energy storage device using a solar cell according to an embodiment of the present invention, Figure 2 is a right side view showing an energy storage device using a solar cell according to an embodiment of the present invention, Figure 3 is a present invention Figure 4 is a rear view showing an energy storage device using a solar cell according to an embodiment of the present invention, Figure 4 is a left side view showing an energy storage device using a solar cell according to an embodiment of the present invention, Figure 5 is an embodiment of the present invention FIG. 4 is a diagram for explaining internal parts of an energy storage device using a solar cell.

As shown in FIGS. 1 to 5, the energy storage device 10 using the solar cell according to the embodiment of the present invention includes a case body 100 having an incision 150 and a front surface of the case body 100. A door 200 that is provided in the case 200 to selectively open the inner space of the case body 100, internal parts 300 disposed in the inner space of the case body 100 so as to connect between the solar cell and the system, and the case A main cover 400 selectively covering the cutout 150 of the main body 100, and a locking member provided on the main cover 400 to selectively slide the main cover 400 to the case main body 100. And 500.

The case body 100 forms the overall appearance of the energy storage device 10 using the solar cell, the inner space of the case body 100, the solar cell 20 and the system (for generating power using solar light) Internal parts 300 for connecting 30 are disposed.

The case body 100 has a front surface open, and the door 200 is provided at the open front surface to selectively open the front surface of the case body 100.

The case body 100 includes an upper surface 110, both side surfaces 120 and 130, and a rear surface 140, and the upper surface 110 and the rear surface 140 are continuously cut in a rectangular shape ( 150)

For convenience of description, the cutouts formed on the rear surface 140 of the case body 100 among the cutouts 150 are called first cutouts 151 and those cut off on the upper surface 110 of the case body 100. The second cutout 152 is called.

The first and second cutouts 151 and 152 of the case body 100 cut in this manner are selectively coupled to a body cover 400 to be described later to form an upper surface 110 and a rear surface 140 of the case body 100. It can be opened selectively.

The door 200 is provided at the front of the case body 100 to selectively open the internal space of the case body 100. The door 200 may be provided with a display unit 210 for displaying an operation state of the internal parts 300 and an operation unit 220 for operating the internal parts 300.

The internal parts 300 may include a battery pack 310, an inverter 320, a converter 330, a switching element 340, and a controller 350.

The battery pack 310 is connected between the grid 30 and the solar cell 20. The battery pack 310 receives power from at least one of the system 30 and the solar cell 20 to perform charging. In addition, when the load (not shown) requires additional power, for example, when the power from the grid 30 is interrupted or the power consumption of the load is greater than that of the grid 30 and the solar cell 20. In the high case, the battery pack 310 may be discharged to supply power to the load.

In addition, the battery pack 310 may be provided as a plurality of battery packs 310. In the drawings, the battery pack 310 is illustrated as three battery packs 310 for convenience of description, but the present invention is not limited thereto.

In addition, the battery pack 310 opens and closes a connection path to the bidirectional converter 332 by the switching element 340. Even when the power required by the load is small or the amount of power generation of the solar cell 20 is small, the efficiency can be improved by driving only a part of the battery pack 310 elastically.

The inverter 320 is connected between the grid 30 and the solar cell 20 and the battery pack 310. In addition, the inverter 320 is connected to the control unit 350 to perform an inverting operation by the driving signal of the control unit 350.

Inverter 320 performs inverting in both directions. That is, the inverter 320 may invert the AC voltage of the system 30 to a DC voltage, or may invert the DC voltage applied to the inverter 320 to an AC voltage that can be used by the system 30 or the load. .

The unidirectional converter 331 is connected between the solar cell 20 and the grid 30 and the battery pack 310.

In addition, the unidirectional converter 331 is connected to the control unit 350 to perform the converting operation by the drive signal of the control unit 350. That is, the unidirectional converter 331 converts the DC voltage generated from the solar cell 20 to the scale required for the inverter 320 or the battery pack 310.

The bidirectional converter 332 is connected between the battery pack 310 and the grid 30 and the solar cell 20.

The bidirectional converter 332 is provided in plurality in correspondence with the number of battery packs 310. The bidirectional converter 332 opens and closes a connection path with the battery pack 310 by the switching element 340.

The switching element 340 is connected between the battery pack 310 and the bidirectional converter 332. In addition, the switching element 340 is electrically connected to the control unit 350. The switching element 340 opens and closes a connection path between the battery pack 310 and the bidirectional converter 332 to control driving of the battery pack 310 and the bidirectional converter 332.

The controller 350 is connected to the inverter 320, the unidirectional converter 331, the bidirectional converter 332, and the switching element 340. The controller 350 operates the inverter 320, the converter 330, the bidirectional converter 332, and the switching device 340 according to the power flow of the energy storage device 10 using the solar cell according to the embodiment of the present invention. To control.

The main body cover 400 includes a first main body cover 410 fitted to the first cutout 151 of the case main body 100 and a second main body fitted to the second cutout 152 of the case main body 100. The cover 420 may be included.

The first body cover 410 and the second body cover 420 may be formed integrally with each other to have a cross-section of the '-' shape as a whole.

The upper surface 110 and the rear surface 140 of the case body 100 are opened through the body cover 400 so that the internal parts 300 may be easily replaced.

6 is a view for explaining a locking member of the energy storage device using a solar cell according to an embodiment of the present invention.

As shown in FIG. 6, the body cover 400 is provided with a locking member 500 for fixing the body cover 400 to the case body 100.

The locking member 500 is disposed on both surfaces of the first body cover 410 and the first locking part 510 and the second body cover 420 slidingly coupled to the rear surface 140 of the case body 100. It may include a second locking portion 520 is disposed on the front end of the surface coupled to the upper surface 110 of the case body (100).

The first locking portion 510 includes the first A locking portion 511 disposed on the right surface of the first body cover 410 and the first B locking portion (unsigned) disposed on the left surface of the first body cover 410. ) May be included.

That is, the first body cover 410 is provided with a first A locking portion 511 and a first B locking portion to cover the first cutout 151 of the case body 100 and at the same time the first A and first B locking portions ( According to the operation of the 511, the first body cover 410 may be fixed to the case body 100.

The first A locking portion 511 is formed on the right surface of the first body cover 410, and the first B locking portion is formed on the left surface of the first body cover 410. Here, the first A locking portion 511 and the first B locking portion may be formed to be symmetrical while having the same structure as each other.

The first and second locking parts 511 and 511 are inserted into and fixed to the first and second grooves 410A and 1B, respectively, formed on the right and left surfaces of the first body cover 410, respectively. The first A sliding bar 511A and the first B sliding bar (unsigned) and the first A groove 410A and the first B groove are respectively inserted into and fixed to the first A sliding bar 511A and the first B sliding bar, respectively. It comprises a 1A leaf spring 511B and a 1B leaf spring (unsigned).

The first A sliding bar 511A and the first B sliding bar provided on the first body cover 410 may be inserted into and locked to the case body 100 adjacent to the first cutout 151 of the case body 100. A frame portion (not shown) having a first A insertion space (not shown) and a first B insertion space (not shown) is formed.

At this time, the first A insertion space is located on the right side of the frame portion corresponding to the first A locking portion 511, and the first B insertion space is located on the left side of the frame portion corresponding to the first B locking portion, and thus the first A locking portion 511 and The first A sliding bar 511A and the first B sliding bar of the first B locking part may be inserted.

The first A locking part 511 is inserted into and fixed in the first A groove 410 A formed on the right surface of the first body cover 410, and optionally includes a first A sliding bar 511 A and a first A sliding bar ( And a first A leaf spring 511B connected to 511A.

The first A sliding bar 511A moves left and right. The first A sliding bar 511A guides the left and right movements of the first A sliding bar 511A by a guide surface (unsigned) formed around the first A groove 410A. Do it.

It is inserted into the first A groove 410A of the first A leaf spring 511B, and both ends thereof are fixed to the periphery of the first A groove 410A, and the first A leaf spring 511B moves according to the movement of the first A leaf spring 511B. Will transform.

For example, when the first A plate spring 511B of the first locking portion 510 is moved to the left side, the first A plate spring 511B is bent in the left direction. At this time, the portion of the first body plate 511B protruding from the outside of the first body cover 410 enters the inside, and the first body cover 410 may be fitted into the frame portion of the case body 100.

Subsequently, the first A sliding bar 511A, which has been moved to the left side, protrudes again to the outside of the first body cover 410 by the elastic force of the first A leaf spring 511B, and is inserted into and fixed to the first A insertion space of the frame part. The first body cover 410 may cover the first cutout 151 of the case body 100.

In order to open the locked first body cover 410, the first body cover 410 may be opened by moving the first A sliding bar 511A to the left to deform the first A leaf spring 511B. .

The first A sliding bar 511A may include a first A handle groove 511C for inserting a user's hand to move the first A sliding bar 511A.

The first B locking part includes a first B sliding bar that is inserted into and fixed to the first B groove 410 B formed on the left surface of the first body cover 410 and selectively protrudes to the outside, and a first B plate spring connected to the first B sliding bar.

The first B sliding bar moves left and right. The first B sliding bar guides the left and right movements of the first B sliding bar by a guide surface (unsigned) formed around the first B groove.

It is inserted into the first B groove of the first B plate spring and both ends are fixed around the first B groove, and the first B plate spring is deformed according to the movement of the first B plate spring.

The first B sliding bar may include a first B handle groove (unsigned) for inserting a user's hand to move the first B sliding bar.

Accordingly, the user inserts a finger into the first A handle groove 511C and the first B handle groove, and then presses the first A sliding bar 511A and the first B sliding bar so that the first body cover 410 is entirely connected to the case body 100. The first cutout 151 may be opened.

The second locking part 520 is disposed at the front end of the second body cover 420 so that the second body cover 420 covers the second cutout 152 of the case body 100. Is coupled to the top surface 110 of the.

The second locking portion 520 is formed to protrude from the front end of the second body cover 420, a plurality of projections respectively fitted in a plurality of grooves (not shown) formed in the upper surface 110 of the case body 100 520 may include.

However, the second locking portion 520 may be provided in various forms except for the plurality of protrusions 520. For example, the second locking portion 520 is formed as a groove (not shown) and the case body 100. Of course, it is possible to form a plurality of projections (not shown).

That is, the second locking part 520 is the first body cover 410 covers the first cutout 151 of the case body 100 while the first locking part 510 is after the case body 100. When the second body cover 420 is fixed to the side surface 140, the second body cover 420 may be fixed to the upper surface 110 of the case body 100 while covering the second cutout 152 of the case body 100. Configuration is enough.

Accordingly, the user inserts a finger into the first A handle groove 511C and the first B handle groove 512C, and then presses the first A sliding bar 511A and the first B sliding bar so that the first body cover 410 is entirely covered by the case body. When the first cutout 151 of the 100 is opened and a plurality of protrusions 520 of the second body cover 420 are applied to the rear so as to be separated from the groove of the case body 100, the body cover 400 To be completely removed from the case body (100).

Next, the ventilation structure of the energy storage device using the solar cell according to the embodiment of the present invention will be described with reference to FIG. 7. 7 is an exploded perspective view showing an energy storage device using a solar cell according to an embodiment of the present invention.

6 and 7, the energy storage device 10 using the solar cell according to the embodiment of the present invention includes first vent holes 121 and 131 formed on both side surfaces 120 and 130 of the case body 100, The second vent hole 111 formed on the upper surface 110 of the case body 100, and the filter 160 of the mesh form to prevent foreign matter from flowing through the first vent holes (121, 131).

The first vent holes 121 and 131 are formed through both side surfaces 120 and 130 of the case body 100. The first vent holes 121 and 131 are formed by internal air being introduced into the inner space of the case body 100. The heat of 300 can be released to the outside.

The first vent holes 121 and 131 may be evenly disposed on both side surfaces 120 and 130 of the case body 100 in parallel with the positions of the internal parts 300 of the inner space of the case body 100. It is preferable to form.

The first vent holes 121 and 131 are sufficient to have sufficient size to allow the outside air to flow therein, and thus, foreign substances contained in the outside air may be introduced through the first vent holes 121 and 131 to remove them. Both sides 120 and 130 of the case main body in which the vent holes 121 and 131 are formed are provided with the filter 160 having a mesh shape.

The second vent hole 111 is formed through the upper surface 110 of the case body 100, the second vent hole 111 is the external air introduced into the inner space of the case body 100, the internal parts Cool the heat of (300) and then let it be released to the outside of the case body (100).

However, since the second vent hole 111 is configured to flow air inside the case body 100 to the outside and is formed on the upper surface 110 of the case body, the second ventilation hole 111 is provided with a filter 160 having a separate mesh shape. You can't.

As described above, the energy storage device using the solar cell according to an embodiment of the present invention by simplifying the opening and closing operation of the body cover to the case body through the locking member to open the inner space of the case body to the body cover in the case body It can be seen that the basic technical idea is to allow easy opening and closing. Therefore, many modifications may be made by those skilled in the art without departing from the scope and spirit of the present invention.

10 ... Energy storage device using solar cell 100 ... Case body
200 ... door 300 ... internal parts
400 ... body cover 500 ... locking member

Claims (10)

A case body having an incision; and,
A door provided at the front of the case body to selectively open the inner space of the case body;
Internal parts disposed in an inner space of the case body to connect the solar cell and the grid; and
A body cover for selectively covering the cutout of the case body; and
And a locking member provided in the main body cover to selectively fix the main body cover to the case main body.
A first vent hole formed on both side surfaces of the case body, a second vent hole formed on an upper surface of the body, and a mesh-shaped filter attached to the case body to prevent foreign substances from flowing through the first vent hole. ,
The main body cover may include a first main body cover fitted to a first cutout formed by cutting a portion of the rear surface of the case main body, and a second insert inserted into a second cutout formed by cutting a portion of the upper surface of the case main body. Including a body cover,
A plurality of protrusions protruding from the front end of the second body cover and fitted into a plurality of grooves formed in an upper surface of the case body,
The locking member is disposed on both sides of the surface of the first body cover and is coupled to the upper surface of the case body by being disposed at the front end of the first locking portion and the surface of the second body cover, which are slidingly coupled to both rear surfaces of the case body. Energy storage device using a solar cell, characterized in that it comprises a second locking unit. delete The method of claim 1,
The first locking portion,
A first A locking portion formed on a right surface of the first body cover;
And a first locking part formed symmetrically with the first locking part on the left surface of the first body cover and having the same structure as the first locking part. The method of claim 3,
The first A and the first B locking portion, respectively
A first A sliding bar and a first B sliding bar which are inserted into and fixed to the first A groove and the first B groove respectively formed on the right and left surfaces of the first body cover and selectively protrude outwards;
And a first A plate spring and a first B plate spring inserted into and fixed to the first A groove and the first B groove, respectively, connected to the first A sliding bar and the first B sliding bar, respectively. 5. The method of claim 4,
The energy storage device using a solar cell, wherein the first A and the first B locking unit further comprises a first A handle groove and a first B handle groove, respectively. delete delete The method of claim 1,
The first ventilation hole is an energy storage device using a solar cell, characterized in that formed in parallel with the position of the internal parts. The method of claim 1,
The internal component includes a battery pack, an inverter, a converter, a switching element, and a controller. The method of claim 1,
The first body cover and the second body cover is formed integrally with each other, the energy storage device using a solar cell, characterized in that it has a cross-section of the 'b' shape as a whole.

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