KR101987674B1 - Module Type Battery Package for Intelligent Power Management and Battery Package Assembly Having the Same - Google Patents

Abstract

A modular battery package for intelligent power management according to the present invention includes a battery, a housing including a first accommodation space in which the battery is received, a battery having one side electrically connected to the battery, And a bus bar formed to be electrically connectable to the housing and physically coupling the housing and the other housing.

Description

TECHNICAL FIELD [0001] The present invention relates to a modular battery package for intelligent power management and a battery package assembly including the same.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a modular battery package for intelligent power management and a battery package assembly including the same. More particularly, the present invention relates to an intelligent power management And a battery package assembly including the battery package.

The battery, also called a battery, is composed of a positive and negative electrode plate and an electrolytic solution, and is a device that can generate DC power by a chemical action and use it as a power source.

Such a battery is manufactured in the form of a battery cell in which a positive electrode plate and a negative electrode plate are housed in a predetermined case, and can supply power to a specific electric device independently of an external power source, and therefore has excellent convenience and is widely used in various industrial fields.

However, the amount of power that can be supplied to the battery cell is limited according to the volume limit. Therefore, in order to obtain a high capacity power, a plurality of battery cells need to be connected to each other.

Conventionally, there has been developed a product that allows a plurality of such battery cells to be electrically connected to each other in a state of being accommodated in a package form. However, until now, the number of connections between packages has been limited, There is a problem that the amount of power that can be generated per unit volume is comparatively low.

Therefore, a method for solving such problems is required.

Korean Patent No. 10-1056238

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in an effort to solve the problems of the prior art described above, and it is an object of the present invention to provide a battery package which can be easily connected to each other with a reasonable structure, .

It is also an object of the present invention to provide a battery package capable of improving the degree of freedom of connection between battery packages and expanding the number of connections unlimitedly.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

According to another aspect of the present invention, there is provided a modular battery package for intelligent power management, comprising: a battery; a housing including a first accommodation space in which the battery is received; And a bus bar formed to be electrically connectable to the battery housed in the other housing and physically coupling the housing and the other housing.

And a connection bar, a part of which is provided in the first accommodation space and is electrically connected to the battery, and the remaining part of which is electrically connected to the bus bar.

The bus bar may further include an auxiliary connecting member that is electrically connected to one side of the bus bar and electrically connected to one side of the bus bar.

In addition, a plurality of the bus bars may be provided, and one side of the plurality of bus bars may be fixed in a state of being overlapped with the auxiliary connecting member.

And a power transmitting member connected to the auxiliary connecting member in a state where the bus bar overlaps with the bus bar and transmitting electric power charged / discharged by the battery to an external device.

The housing further includes a second accommodating space formed on the outside of the first accommodating space, wherein one side of the bus bar is accommodated in the second accommodating space, and the other side is protruded to the outside of the housing, 2 accommodating space.

The housing may further include a first opening hole opened to allow the bus bar to protrude in the Z axis direction, a second opening hole opened to allow the bus bar to protrude in the Y axis direction, And a third opening hole that is opened to allow the first opening hole to be opened.

And a battery management module that performs at least one of the cell balancing management operation, the overvoltage prevention operation, and the overcharge prevention management operation of the battery.

The battery monitoring module may further include a battery monitoring module that monitors at least any one of a remaining amount, a voltage, and an amount of current of the battery in real time.

In order to solve the above problems, a modular battery package for intelligent power management and a battery package assembly including the same have the following effects.

First, there is an advantage that each battery package can be easily connected to each other with a reasonable structure.

Second, there is an advantage that the space efficiency is excellent and the amount of power that can be generated per unit volume can be maximized.

Thirdly, the degree of freedom of connection between battery packages can be improved, and battery packages can be connected in various directions such as X-axis, Y-axis, and Z-axis directions.

Fourth, there is no limitation on the number of connections between battery packages, which is advantageous in maximizing the size of the battery package assembly.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a view showing a module battery package according to a first embodiment of the present invention;
2 illustrates an internal structure of a modular battery package according to a first embodiment of the present invention;
FIG. 3 is a diagram illustrating a connection relationship of each component in the modular battery package according to the first embodiment of the present invention; FIG.
4 is a perspective view of a modular battery package according to a first embodiment of the present invention;
FIG. 5 is a view showing a module battery package according to a first embodiment of the present invention connected in the Z-axis direction; FIG.
FIG. 6 is a view showing a module battery package according to a first embodiment of the present invention connected in the Y-axis direction; FIG.
FIGS. 7 and 8 are views showing a modular battery package according to a second embodiment of the present invention; FIG. And
9 to 12 are views showing a modular battery package according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

1 is a view showing a state of a modular battery package 100 according to a first embodiment of the present invention.

2 is a view showing an internal structure of a modular battery package 100 according to a first embodiment of the present invention. FIG. 3 is a schematic view of a modular battery package 100 according to the first embodiment of the present invention, FIG. 5 is a diagram showing connection relationships of respective components. FIG.

4 is a block diagram of a modular battery package 100 according to a first embodiment of the present invention.

1 to 4, a modular battery package 100 according to a first embodiment of the present invention includes a battery 120, a housing 110, bus bars 140 and 150, A bar 122, and an auxiliary connecting member 130.

The battery 120 is formed in the form of a battery cell in which a positive electrode plate and a negative electrode plate are accommodated in a predetermined case, and various known types can be applied. The battery 120 may be either a primary battery or a secondary battery.

In this embodiment, the batteries 120 are arranged side by side and connected in series. However, the connection method of the battery is not limited to this, and may be implemented by various methods such as serial / parallel.

The housing 110 includes a first accommodation space S ₁ in which the battery 120 is accommodated and a second accommodation space S ₂ formed outside the first accommodation space S ₁ .

In the case of this embodiment, the second receiving space (S ₂₎ is provided with pairs at both sides of the first receiving space (S _1), this second receiving space, such as (S ₂₎ has a bus bar (140, 150 ), The auxiliary connecting member 130, and the like can be accommodated.

In this embodiment, the housing 110 is formed to be detachable / attachable to each other, and includes a cover 110b and a base 110b, which form the first accommodation space S ₁ and the second accommodation space S ₂ , 110a.

One side of the bus bars 140 and 150 is electrically connected to the battery 120 and the other side of the bus bars 140 and 150 is electrically connectable to a battery accommodated in a housing of another battery package. Physically combining them.

That is, the bus bars 140 and 150 can simultaneously perform physical connection and electrical connection between the battery packages 100, and in this embodiment, the bus bars 140 and 150 have a flat plate shape elongated in the longitudinal direction.

In this embodiment, one side of the bus bars 140 and 150 is accommodated in the second accommodation space S ₂ and the other side is projected to the outside of the housing 110. Accordingly, the other side of the bus bars 140 and 150 can be received in the second accommodation space of the other housing and electrically connected to the battery provided in the other housing.

The housing 110 includes a first opening hole 111 and a second opening hole 114 to allow the bus bars 140 and 150 to protrude in the Z axis direction, A second opening hole 112 opened to be protruded and a third opening hole 113 opened to allow the bus bars 140 and 150 to protrude in the X axis direction .

The first opening holes 111 and 114 are formed in the cover 110b and the base 110a respectively and the second opening hole 112 and the third opening hole 113 are formed in the base 110a, 110a. At this time, the first opening holes 111 and 114, the second opening hole 112, and the third opening hole 113 are communicated with the second accommodation space S ₂ .

In this embodiment, the bus bars 140 and 150 are connected to the first bus bar 140 protruding in the Z-axis direction from the second accommodation space S ₂ through the first opening hole 111 formed in the cover 110b. And a second bus bar 140 protruding in the Y axis direction through one of the first opening 150 and the second opening hole 113. Therefore, the battery package 100 of this embodiment can be connected to other battery packages in the Z-axis direction or the Y-axis direction.

In addition, in order to electrically connect the bus bars 140 and 150, the present embodiment includes a connection bar 122 and an auxiliary connection member 130 (not shown) for electrically connecting the battery 120 and the bus bars 140 and 150 to each other, ).

The connection bar 122 is formed to be long along the longitudinal direction of the housing 110 and is partially provided in the first accommodation space S ₁ to be electrically connected to the battery 120, And is electrically connected to one side of the auxiliary connection member 130. The auxiliary connection member 130 is electrically connected to the second accommodation space S ₂ .

At this time, since the other side of the auxiliary connection member 130 is electrically connected to one side of the bus bars 140 and 150, electrical connection can be made from the battery 120 to the bus bars 140 and 150.

Particularly, the auxiliary connecting member 130 may be configured to convert the connecting direction of the connecting bar 122 extending in the longitudinal direction of the housing 100 in the width direction to facilitate the connection of the bus bars 140 and 150 have.

The first bus bar 140 and the second bus bar 150 may be fixed to one side of the auxiliary connecting member 130 in a superposed state. In other words, in this embodiment, since the plurality of bus bars 140 and 150 can be gathered and fixed at the same point, the volume of the housing 110 can be minimized.

Also, in the present embodiment, the bus bars 140 and 150 and the auxiliary connecting member 130 are formed with fastening holes h to perform mutual coupling through the fastening member c. At this time, the auxiliary fixing member 135 is provided on the back surface of the auxiliary connection member 130, so that the connection stability between the bus bars 140 and 150 and the auxiliary connection member 130 can be improved.

In the present embodiment, the power transmitting member 130 is connected to the auxiliary connecting member 130 in a state overlapped with the bus bars 140 and 150, and transmits electric power to be charged / discharged by the battery 120 to an external device. (180).

The power transmission member 180 includes a cable 181 and a fixing portion 182 connected to the cable 181 and fixed between the bus bars 140 and 150.

In addition, the present embodiment may further include a battery management module 190 and a battery monitoring module 195 provided in the housing 110.

The battery management module 190 may perform at least one of various management operations such as cell balancing management operation of the battery 120, overvoltage prevention and overcharge prevention management operation, The state of the battery 120 such as the remaining amount, voltage, and current amount of the battery 120 can be monitored in real time.

The battery monitoring module 195 may further include an indicator light 197 to emit light in response to the state of the battery 120. The user may thus operate the battery 120 from outside the housing 110, Can be monitored. It is needless to say that the display lamp 197 may include various light emitting devices such as LEDs.

According to the above structure, a plurality of modular battery packages of the present invention can be connected to each other in various directions.

FIG. 5 is a view showing a module battery pack 100 according to a first embodiment of the present invention connected in the Z-axis direction. In this embodiment, the plurality of battery packages 100 are connected to each other by using the first bus bar 140.

FIG. 6 is a view showing a module battery pack 100 according to a first embodiment of the present invention connected in the Y-axis direction. In this embodiment, the plurality of battery packages 100 are connected to each other by using the second bus bar 150.

Also, it is possible to simultaneously expand the modular battery package in the Y-axis direction and the Z-axis direction by using the first bus bar 140 and the second bus bar 150, Of course.

Hereinafter, other embodiments of the present invention will be described.

7 and 8 are views showing a state of a modular battery package 100 according to a second embodiment of the present invention.

The second embodiment of the present invention shown in FIGS. 7 and 8 is also formed in the same manner as the first embodiment. However, in the present embodiment, the second accommodating space S ₂ (see FIG. 3) is omitted, and the auxiliary connecting member 130 and the first bus bars 150a and 150b are exposed to the outside.

In this embodiment, both sides of the housing 110 are formed in a stepped shape, and the auxiliary connecting member 130 has a shape corresponding to the stepped shape of the housing 110.

Accordingly, as shown in FIG. 8, a plurality of the first bus bars 150a and 150b may contact each other to connect the battery package 100 in the Z-axis direction.

That is, in this embodiment, a plurality of the first bus bars 150a and 150b connecting the battery package 100 in the Z-axis direction are provided, thereby improving the connection stability.

9 to 12 are views showing a state of a modular battery package 100 according to a third embodiment of the present invention.

In the case of the third embodiment of the present invention shown in Figs. 9 to 12, the above-described first embodiment and the second embodiment are mixed.

The first accommodation space S ₁ and the second accommodation space S ₂ are formed inside the housing 110 and the auxiliary connection member 130 accommodated in the second accommodation space S _{2 is} formed in a stepped shape .

Accordingly, in this embodiment, as shown in FIG. 9, when the battery package 100 is connected in the Z-axis direction, a stable state can be formed through the plurality of first bus bars 150a and 150b.

In order to achieve this, the first opening hole 11 may be formed to correspond to the shape of the auxiliary connecting member 130 so that the plurality of first bus bars 150a and 150b may protrude outward. Shaped 'shape.

In the case of FIG. 10, the second bus bar 140 is further provided through the second opening hole 112 in the form having the first bus bars 150a and 150b as shown in FIG. Accordingly, the plurality of battery packages 100 can be connected not only in the Z-axis direction but also in the Y-axis direction.

11, the third bus bar 160 may be further provided through the third opening hole 113 in the form having the first bus bars 150a and 150b and the second bus bar 140 as shown in FIG. Respectively. Accordingly, the plurality of battery packages 100 can be further connected in the X-axis direction.

12, the plate-shaped power transmission member 170 is connected to the outside through the third opening hole 113 in the form of having the first bus bars 150a and 150b and the second bus bar 140 as shown in FIG. Exposed.

Like the power transmitting member 180 (see FIG. 2) of the first embodiment described above, the plate-shaped power transmitting member 170 serves to transmit power generated from the battery 120 to an external device. And is formed in a plate shape. As such, the shapes of the power transmitting members 170 and 180 may be variously formed.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100: battery package 110: housing
111, 114: first opening hole 112: second opening hole
113: third opening hole 120: battery
122: connection bar 130: auxiliary connection member
135: auxiliary fixing member 140: second bus bar
150: first bus bar 160: third bus bar
170, 180: power transmission member 190: battery management module
195: Battery Monitoring Module 197: Indicator light

Claims (10)

battery;
A plurality of housings including a first accommodation space in which the batteries are accommodated; And
And a bus bar electrically connected to one end of the battery and electrically connected to a battery accommodated in the other housing and physically coupling the housing and the other housing,
The housing further includes a second accommodation space formed outside the first accommodation space,
The housing includes:
A first opening formed in the upper surface and the lower surface of the adjacent pair of housings of the plurality of housings to communicate with the second housing space of the adjacent pair of housings so as to allow the bus bar to protrude in the Z- hall;
A second opening formed to communicate with the second accommodation space of the pair of adjacent housings on the front and rear surfaces of the adjacent pair of housings of the plurality of housings to allow the bus bar to protrude in the Y axis direction hall; And
A third opening formed in a side surface of a pair of adjacent housings of the plurality of housings to communicate with a second housing space of the adjacent pair of housings and opened so that the bus bar protrudes in the X axis direction;
And at least one of < RTI ID = 0.0 >
And a connection bar provided in the first accommodation space and electrically connected to the battery, the remaining part of the connection bar protruding into the second accommodation space,
Further comprising an auxiliary connecting member which is provided in the second accommodating space and is electrically connected to one side of the connecting bar and the other side of which is electrically connected to one side of the bus bar to convert a connection direction of the bus bar,
The bus bar is connected to at least one of the pair of housings through at least one of a first opening hole, a second opening hole and a third opening hole formed in a pair of adjacent housings of the plurality of housings, And the other end is coupled to an auxiliary connecting member located in a second one of the pair of housings. delete delete The method according to claim 1,
A plurality of bus bars are provided,
Wherein the plurality of bus bars are fixed on one side of the auxiliary connecting member in a superposed state. 5. The method of claim 4,
Further comprising a power transmitting member connected to the auxiliary connecting member in a state overlapped with the bus bar and transmitting power to be charged / discharged by the battery to an external device. delete delete The method according to claim 1,
Further comprising a battery management module that performs at least one of cell balancing management operation of the battery, overvoltage prevention operation, and overcharge prevention management operation of the battery. The method according to claim 1,
Further comprising a battery monitoring module for monitoring at least any one of a remaining amount, a voltage and an amount of current of the battery in real time. A battery pack assembly having a plurality of modular battery packages for intelligent power management according to any one of claims 1, 4, 5, 8, and 9.

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