KR101608333B1 - Battery pack for energy storage system - Google Patents

Abstract

The present invention relates to a battery pack housing of an energy storage system. More specifically, the present invention relates to a battery pack housing of an energy storage system which stores a battery pack and an electronic component in a detachable additional housing, thereby easily storing and connecting the battery pack and the electronic component.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery pack housing for an energy storage system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery pack housing for an energy storage system, and more particularly, to a battery pack housing for a battery pack and an electric component, To a battery pack housing of the battery pack.

In recent years, energy storage systems (Energy Storage System) have been attracting attention in line with the expansion of new and renewable energy, especially in developed countries. Unlike existing thermal power and nuclear power generation, renewable energy such as wind power and solar power generation fluctuates very much in the amount of power that can be generated depending on the external environment such as the wind intensity and the amount of sunshine.

Therefore, the energy storage system is a device that stores the generated energy and supplies it to the power system in a stable manner at the required time, and the energy storage system is emerging as an indispensable facility.

In addition, energy storage systems can save energy when power demand is low, and can improve power quality and energy use efficiency by supplying power during overload or emergency.

Examples of such energy storage systems include domestic energy storage systems, industrial or commercial medium and large energy storage systems, and large capacity energy storage systems installed in power plants and substations.

The energy storage system as described above can increase the power that can be supplied by connecting a plurality of battery cells formed of secondary batteries in series or in parallel between battery pack housings accommodating battery packs connected in series or in parallel.

At this time, in the conventional energy storage system, a failure of the battery cell may occur due to heat generated during the operation of the battery pack, so that a cooling pipe for circulating the cooling fan or the cooling water has to be provided.

Therefore, it has been proposed in the related art (for example, Japanese Patent Application Laid-Open No. 10-1347985) to have a structure in which a plurality of ventilation holes are provided in a housing for housing battery packs so that cooling can be performed even without a separate cooling device.

However, in the above conventional technology, since the electric parts of the battery pack, in which a plurality of battery cells are connected in series or in parallel, are installed inside the housing accommodating the battery pack, electric parts must be installed in the cramped space, There is a problem that the process is not easy.

Patent Registration No. 10-1347985 (registered on December 27, 2013)

It is an object of the present invention to provide a battery pack in which a plurality of battery cells are connected in series or in parallel and a battery pack in which electric components are housed in a separate space The present invention also provides a battery pack housing for an energy storage system.

It is another object of the present invention to provide a battery pack housing for an energy storage system in which a plurality of battery cells are spaced apart from each other by a predetermined interval to facilitate storage and installation of the battery cells.

It is still another object of the present invention to provide a battery pack housing for an energy storage system having a structure capable of minimizing a closed space in a battery pack housing housing a plurality of battery cells and thus capable of dissipating heat even without a separate cooling device.

The present invention includes the following embodiments in order to achieve the above object.

A preferred embodiment of the battery pack housing of the energy storage system according to the present invention is a battery pack housing member for housing a battery pack in which several battery cells are connected in series or in parallel; And a component receiving member for receiving the circuit board on which the electric component of the battery pack is mounted to be detachably attached to the battery pack receiving member, wherein at least one of the front, rear, right and left side walls is open, A main body for storing the pack; A connecting part having a connector for outputting a power of the battery pack from one surface of the main body and to which the component housing member is fastened; And a cover rotatably fixed on an upper surface of the main body and opening / closing an upper surface of the main body, wherein the main body includes at least one vertical link that stands upright on a bottom plate on which the battery pack is housed; A first horizontal link extending horizontally at the top of the vertical link as a pair of mutually spaced apart; A second horizontal link extending from both sides of the bottom plate as a pair of mutually spaced apart and connected to the lower end of the vertical link; A cell supporting plate extending inwardly of the main body and supporting an upper surface of the battery cell, the cell supporting plate being integrated with the first horizontal connecting member; A cover supporting end which is integrated with the first horizontal connecting rod and extends to the inside of the main body to support the cover; And a guide bar having a guide protrusion protruding at regular intervals to be fixed to the second horizontal connecting rod to guide the battery cell, wherein the first horizontal connecting rod and the second horizontal connecting rod have a plurality of Includes tear openings.

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In another embodiment of the present invention, the battery pack receiving member further includes at least one roller that is rotatably fixed on a lower surface of the main body.

In another embodiment of the present invention, the connecting portion includes at least one insertion port that is inwardly inwardly of a wall surface to which the component receiving member is fastened, and the component receiving member includes at least one latching protrusion .

In another embodiment of the present invention, the component housing member may further include a transparent window formed of a transparent material and provided on the front surface.

In another embodiment of the present invention, the cover further comprises at least one cover transparent window made of a transparent material.

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The present invention relates to a battery pack housing in which a plurality of battery cells are connected in series or in parallel and a battery pack housing and a separate detachable housing accommodate electrical components, There is a shortening effect.

In addition, since the guide structure is formed so as to house the battery cells at a predetermined interval from the inside of the battery pack housing, it is easy to store and install the battery cells.

In addition, the present invention provides a battery pack housing for housing a plurality of battery cells, which has a structure in which both sides and rear sides are opened except for a front side, so that it is possible to dissipate heat without a separate cooling device.

1 is a perspective view showing a battery pack housing of an energy storage system according to the present invention,
2 is a cross-sectional view taken along the line A-A 'of the battery pack housing of the energy storage system according to the present invention,
3 is a partial perspective view showing the inside of the battery pack housing of the energy storage system according to the present invention,
4 is an exploded perspective view showing a coupling relationship of a component housing member in a battery pack housing of an energy storage system according to the present invention,
5 is a perspective view showing the back surface of the component housing member in the battery pack housing of the energy storage system according to the present invention.

Hereinafter, preferred embodiments of a battery pack housing of an energy storage system according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a battery pack housing of an energy storage system according to the present invention, FIG. 2 is a sectional view taken along line A-A 'of a battery pack housing of the energy storage system according to the present invention, FIG. 3 is a perspective view showing the inside of a battery pack housing of FIG.

1 to 3, the battery pack housing of the energy storage system according to the present invention includes a battery cell 300 in which a plurality of battery packs 300 are connected in series or in parallel, a main body 120 that houses the battery cells 300, And a connecting part 130 having a cover 110 for sealing the upper surface of the main body 120 and a connector 131a fixed on one surface of the main body 120 and outputting power of the battery pack. A pack receiving member 100 and a component receiving member 200 detachably attached to the connecting portion 130. [

The cover 110 includes a hinge 112 for fixing the upper surface of the main body 120 to be rotatable in a vertical direction and a cover transparent window 111 made of a transparent material and made of a transparent material so that the inside can be visually confirmed . Here, the cover 110 is fixed to the upper surface of the main body 120 by fixing means. That is, the cover 110 is fixed to the upper surface of the main body 120 by the fixing means (for example, screws) (not shown) and when the operator releases the fixing means, the hinge 112 ).

The hinge 112 is fixed on the upper surface of the main body 120 by a hinge plate to fix the cover 110 so as to be rotatable in a vertical direction.

 The cover transparent window 111 is formed of a transparent material on the upper surface of the cover 110 as one or more. Preferably, the cover transparent window 111 is formed at the same position as the position of the bus bar 310 connected to the polarity scan and the polar scan so as to connect the battery cells 300 housed in the inside in series or in parallel . The arrangement of the cover transparent window 111 allows the operator to visually confirm the state of the bus bar 310 through the cover transparent window 111 even if the operator does not open the cover 110.

The cover 110 may further include a plurality of heat dissipation holes 113 to dissipate the heat generated in the battery cell 300 stored in the main body 120.

The main body 120 includes a bottom plate 123 receiving the battery cells 300 and a frame 122 forming an inner space in which the battery pack of the bottom plate 123 is housed. The frame 122 includes vertical links 122b that are erected at the edges of the bottom plate and horizontal links 122a and 122a 'that are horizontally connected at the upper and lower ends of the vertical links 122b.

The horizontal connecting rods 122a and 122a 'may include a first horizontal connecting rod 122a horizontally connected to the upper end of the vertical connecting rod 122b and a second horizontal connecting rod 122b extending in the longitudinal direction from both sides of the bottom plate 123 And a plurality of heat dissipating holes 122c formed through the first horizontal connecting rod 122a and the second horizontal connecting rod 122a ', respectively.

The vertical connecting rods 122b are formed upright at the corners of the bottom plate 123, and the horizontal connecting rods 122a and 122a 'are connected to the upper and lower ends, respectively. The horizontal connecting rod 122a is connected horizontally at the upper end of the vertical connecting rod 122b to form an opening 121 which is open to the bottom plate 123.

In addition, the bottom plate 123 of the main body 120 may further include a plurality of heat dissipation openings 123a.

In other words, the main body 120 is opened without being closed at both the rear and both sides except for one side (for example, the front side) where the connecting part 130 is installed, and the horizontal connecting parts 122a and 122a ' The cover 110 and the bottom plate 123 to facilitate heat dissipation of the heat generated in the battery cell 300 through the plurality of heat dissipation holes 113, 122c, and 123a.

The main body 120 further includes a cell supporting plate 125 extending inwardly from the first horizontal connecting rod 122a and supporting the upper surface of the battery cell 300, A cover supporting end 126 which is horizontally bent to support the cover 110 and a guide bar 124 which guides the battery cells 300 apart from each other in the bottom plate 123, And a roller 127 that is rotatably fixed in the housing 123.

The rollers 127 are fixed so as to be exposed downward through through-holes (not numbered) which are opened to the lower side of the bottom plate 123. Accordingly, the roller 127 is rotated while being in contact with the ground surface (for example, the upper surface of the tray) through the lower surface of the bottom plate 123. .

The cell supporting plate 125 is a horizontally extending plate that is bent at the inner side of the first horizontal connecting rod 122a to support the upper surface of the battery cell 300. [ The cell supporting plate 125 supports the upper surface of the battery cell 300 and can fix the battery cell 300 to prevent the battery cell 300 from being shaken from external vibration or impact.

The cover supporting end 126 is formed as a horizontal plate bent inward from the upper end of the horizontal connecting rod 122a to form an area where the cover 110 contacts.

Here, the cell supporting plate 125 and the cover supporting end 126 are integrally formed with the first horizontal connecting rod 122a.

The guide bars 124 extend in the longitudinal direction as a pair fixed at mutually opposite positions on the bottom plate 123. The guide bar 124 includes a plurality of guide protrusions 124a protruding at a distance corresponding to the width of the battery cell 300.

Here, the guide bar 124 is injection-molded with a plastic resin and is bonded to the inner surface of the second horizontal connecting rod 122a 'to be insulated. It is preferable that the bottom plate 123 is attached with an insulating material made of a plastic resin or an elastic rubber.

The guide protrusions 124a protrude inwardly at a distance corresponding to the width of the battery cell 300 so that the guide protrusions 124a guide the battery cell 300 and the battery cell 300 so that their side surfaces are spaced apart from each other. In addition, since the battery cell 300 is installed between the guide protrusions 124a, the battery cell 300 can be protected from vibration or shock applied from the outside.

The connecting portion 130 and the component housing member 200 will be described with reference to Figs. 5 and 6. Fig.

FIG. 4 is an exploded perspective view showing a coupling relation of the component housing member in the battery pack housing of the energy storage system according to the present invention, and FIG. 5 is a rear view of the component housing member in the battery pack housing of the energy storage system according to the present invention It is a perspective view.

4 and 5, the connecting part 130 is integrally formed on one side (for example, front side) of the main body 120. More specifically, the connecting portion 130 includes a protrusion 131 protruding from one side of the front surface of the battery cell 300 and a connector 131a for outputting the power of the battery cell 300. The component accommodating member 200, (Not shown).

The projecting portion 131 protrudes forward from one side of the connecting portion 130 and forms a space in which a power supply line extended from a battery pack in which a plurality of battery cells 300 are electrically connected is received and accommodated And a connector 131a to which a cable is connected from the front side is fixed.

The connection part 132 is formed with an opening 132b opened from the other side of the front surface to open a signal line connected from a sensor for detecting the temperature and the abnormality of the battery cell and one or more insertion ports 132a directed inward from the rim.

The component housing member 200 includes a component body 210 that forms a space for accommodating a circuit board on which electrical components such as a BMS (Battery Management System) are mounted, and a component body 210 that is made of a transparent material. An opening 211 opened to receive a signal line from the back surface of the component body 210 and a locking protrusion 230 protruding from the back surface to be inserted into the insertion port 132a, .

The component main body 210 has a storage space for accommodating circuit boards on which electrical components are mounted and a signal line drawn out from the opening 132b of the connection portion 132 on the back surface is opened to be connected to the circuit board An opening 211 is formed.

The part transparent window 220 is provided on the front surface of the component body 210 to allow the inside electronic components to be visually recognized from the outside.

The locking protrusions 230 protrude from the back surface of the component body 210 and are inserted into the insertion ports 132a formed inwardly of the connection portions 132. [ The fastening structure between the locking protrusion 230 and the insertion port 132a may be variously applied. In one example, the locking protrusion 230 is inserted into the insertion port 132a with a vertical plate downward in the shape of a letter. Accordingly, the worker can move the part-receiving member 200 in the direction of the arrow A by inserting the locking projection 230 into the insertion port 132a by bringing the end of the locking projection 230 of the component housing into contact with the insertion port 132a, And is fastened to the other side of the front surface of the connecting portion 130.

Or when the component receiving member 200 is separated from the connecting portion 130, the operator moves the component receiving member 200 upwards until the engaging protrusion 230 is released from the insertion port 132a, And can be separated at the connecting portion 130.

The present invention includes the above-described structure. Hereinafter, the operation performed through the above-described structure will be described in more detail.

First, the operator rotates the cover 110 upward to open the upper surface of the main body 120. The operator installs a plurality of battery cells 300 between the guide protrusions 124a of the guide bar 124. When the storage of the battery cells 300 is completed, the operator fixes the bus bars 310 on the positive and negative polarities for outputting power from the upper surface of the battery cells 300, respectively. At this time, the bus bar 310 is fixed between the polarities of the adjacent battery cells 300.

Thereafter, when the connection operation of the bus bar 310 is completed, the operator connects the power line located at the outermost position to the connection terminal formed on the back surface of the connecting part 130, The sensor that senses the temperature is fixed. Then, the operator connects the signal line connected from the sensor to the circuit board on which the electric component is mounted.

When the connection operation of the signal line is completed, the operator draws the circuit board through the opening 211 formed in the back surface of the component housing member 200. The worker inserts the locking protrusion 230 into the insertion port 132a of the connection portion 132 to fasten the component receiving member 200 to the front surface of the connecting portion 130. [

When the storage of the battery cell 300 and the connection of the component housing member 200 are completed as described above, the operator places the cover 110 downward so that the bottom edge of the cover 110 is closely attached to the cover supporting end 126 The cover 110 is fixed to the upper surface of the main body 120 by inserting a screw into the screw hole formed at one end of the cover 110 and then rotating the screw.

That is, according to the present invention, since the battery pack receiving portion 100 in which the battery cell 300 is accommodated and the component accommodating member 200 in which the electric component is accommodated are detachably detachable, And connection and installation of electric parts are very simple.

In addition, the present invention is characterized in that all the remaining wall surfaces except for one side of the front and rear left and right sides of the main body 120 except for the side where the connecting part 130 is fastened are opened and horizontally connected to the horizontal connecting rods 122a and 122a ' Since the plurality of heat dissipation holes 122c are provided, it is possible to adjust the temperature inside without providing a separate heat dissipation device.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: battery pack housing member 110: cover
111: cover transparent window 112: hinge
120: main body 121: opening
122: frame 122a, 122a ': horizontal connecting rod
122b: vertical connecting rods 113, 122c, 123a:
123: bottom plate 124: guide bar
124a: guide projection 125: cell support plate
126: Cover supporting step 127: Roller
130: connecting part 131:
131a: connector 132:
132a: insertion port 200:
210: parts body 132b, 211: opening
220: part transparent window 230:
300: battery cell 310: bus bar

Claims (7)

A battery pack receiving member for receiving a battery pack in which a plurality of battery cells are connected in series or in parallel; And
And a component accommodating member for accommodating a circuit board on which electrical components of the battery pack are mounted and being detachably attached to the battery pack accommodating member,
The battery pack housing member
Wherein at least one of the front, rear, left and right side walls is opened to receive the battery pack;
A connecting part having a connector for outputting a power of the battery pack from one surface of the main body and to which the component housing member is fastened; And
And a cover which is rotatably fixed on the upper surface of the main body and opens and closes the upper surface,
The body
One or more vertical links erected on a bottom plate on which the battery pack is housed;
A first horizontal link extending horizontally at the top of the vertical link as a pair of mutually spaced apart;
A second horizontal link extending from both sides of the bottom plate as a pair of mutually spaced apart and connected to the lower end of the vertical link;
A cell supporting plate extending inwardly of the main body and supporting an upper surface of the battery cell, the cell supporting plate being integrated with the first horizontal connecting member;
A cover supporting end which is integrated with the first horizontal connecting rod and extends to the inside of the main body to support the cover; And
And a guide bar having guide protrusions protruding at regular intervals to be fixed to the second horizontal linkage to guide the battery cells,
Wherein the first horizontal connecting rod and the second horizontal connecting rod have a plurality of through holes formed through the first horizontal connecting rod and the second horizontal connecting rod.
delete The battery pack according to claim 1, wherein the battery pack housing member
Further comprising one or more rollers fixed to be rotatable on a lower surface of the main body.
2. The apparatus of claim 1, wherein the connecting portion
And at least one insertion port that is inwardly directed from a wall surface to which the component receiving member is fastened,
And the component receiving member includes at least one engaging protrusion that is inserted into and engaged with the insertion port at the back surface.
5. The component-receiving member according to claim 1 or 4, wherein the component-
The battery pack housing of claim 1, further comprising a transparent window formed of a transparent material and provided on a front surface thereof.
delete 2. The apparatus of claim 1, wherein the cover
Further comprising one or more cover transparent windows made of a transparent material.

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