KR101424668B1 - Battery Pack Structure - Google Patents

Abstract

Disclosed is a battery pack structure. The present invention includes a first insertion module which has a plurality of insertion holes which is arranged in a horizontal direction to allow a plurality of batteries to be formed in a first row and to be horizontally inserted, and a second insertion module which is connected to the first insertion module and has insertion holes which are arranged in the horizontal direction to allow the batteries to be formed in a second row which is parallel to the first row and to be horizontally inserted. According to the present invention, the batteries are integrated to be installed, thereby being used as an emergency power device for supplying enough power to a home or company and minimizing installation space for a battery pack.

Description

A battery pack structure {Battery Pack Structure}

The present invention relates to a battery pack structure, and more particularly, to a battery pack structure in which a plurality of batteries can be installed in a highly integrated manner, thereby enabling sufficient power to be supplied in the home or company as an emergency power device, And a battery pack.

Problems such as power use restriction and power cut-off due to the surge in electric power demand in summer have been socially raised in recent years, and accordingly, a plan to install self-power supply means in homes and companies has been sought.

On the other hand, a small-sized generator may be considered as a self-power supply means, but a method of supplying emergency power required by a home and a company by electrically connecting a plurality of small batteries that can be recharged becomes more effective have.

However, there is a problem that when the batteries are electrically coupled to a sufficient degree to supply necessary power in the home and company, the volume becomes so large that it is difficult to keep at home, and in addition, The risk of electric accidents due to heat is a problem.

Accordingly, it is an object of the present invention to provide a battery pack structure capable of sufficiently supplying necessary electric power within a home or a company as an emergency power device, and minimizing the installation space, .

According to an aspect of the present invention, there is provided a battery pack structure, comprising: a plurality of batteries, each having a plurality of insertion holes formed in a lateral direction so as to form a first row and inserted side by side; 1 insertion module (100); And a plurality of inserting holes connected to the first inserting module (100) and having a plurality of inserting holes formed side by side in a lateral direction so as to form a second row of the plurality of batteries (10) parallel to the first row, And an insertion module (200), wherein an end of each of the plurality of insertion ports (110) provided in the first insertion module (100) And the upper protrusions 140 and 240 are provided at the ends of the outer circumferential surfaces of the insertion ports 210 of the upper case 100. [

Preferably, the first insertion module 100 includes two insertion ports provided adjacent to the first insertion module 100, and four insertion ports formed adjacent to the second insertion module 200, A connecting plate 500 provided at a central position of the insertion ports and electrically connecting the battery 10 inserted in the first insertion module 100 and the battery 10 inserted in the second insertion module 200, And a fixing member for fixing the fixing member.

A plurality of insertion holes provided in the first insertion module 100 for fixing the connection plate 500 electrically connecting the plurality of batteries 10 inserted into the plurality of insertion holes, .

In addition, the battery pack structure may be continuously connected to another battery pack structure adjacent to the battery pack structure.

In addition, a coupling protrusion 130 is provided on a lateral side of the first insertion module 100 so as to be slidably engaged with a groove 230 provided in the second insertion module 200 of the other battery pack structure. do.

In addition, a groove 230 is provided on a lateral side of the second insertion module 200 so as to be slidably engaged with a coupling protrusion 130 of the first insertion module 100 of the other battery pack structure. do.

In addition, the battery pack structure is provided with mounting protrusions 400, which are inserted into the grooves 650 of the mounting table 600 on which the battery pack structure is mounted, on both longitudinal sides of the battery pack structure.

The first insertion module 100 and the second insertion module 200 are integrally formed and the battery pack structure includes the first insertion module 100 and the second insertion module 200, And a lower structure formed integrally with the lower structure of the first insertion module 100 and the second insertion module 200 and detachably coupled to the upper battery pack structure .

In addition, the inner side surface of the insertion port is provided with spacing projections (115, 215) for separating the battery (10) inserted in the insertion port from the inner side surface of the insertion port.

According to the present invention, since a large number of batteries can be installed with high degree of integration, it is possible to sufficiently supply required power in the home or company as an emergency power device, and to minimize the installation space.

In addition, according to the present invention, heat generated from a plurality of highly integrated batteries can be effectively discharged to the outside.

In addition, according to the present invention, a plurality of batteries installed in a battery pack structure can be electrically connected in various serial-parallel structures as needed, so that power supplied through the battery pack structure can be easily controlled.

1 is a view showing a structure of a battery pack structure according to an embodiment of the present invention,
FIGS. 2 and 3 are exploded perspective views of a battery pack structure according to an embodiment of the present invention, and FIGS.
4 and 5 are views showing a continuous fastening structure of a battery pack structure according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a view showing a structure of a battery pack structure according to an embodiment of the present invention. 1, a battery pack structure according to an embodiment of the present invention includes a first insertion module 100 and a second insertion module 200 integrally connected to the first insertion module 100 do.

The first insertion module 100 is provided with a plurality of insertion holes 110 formed in parallel in the lateral direction so as to form a first row of the plurality of batteries 10 and to be inserted side by side. A plurality of insertion holes 210 are formed in the lateral direction so that the batteries 10 form a second row parallel to the first row and are inserted side by side.

The batteries 10 inserted into the insertion ports 110 and 210 are inserted into the battery insertion ports 110 and 210 of the first insertion module 100 and the second insertion module 200, Four spacing protrusions 115 and 215 spaced from the inner surface are formed at regular intervals.

According to the present invention, since the spacing protrusions 115 and 215 are formed on the inner surfaces of the insertion ports 110 and 210, a space is formed between the battery 10 and the insertion ports 110 and 210, The heat generated from the battery 10 can be effectively discharged to the outside.

1, the battery pack structure according to the present invention includes an upper structure A which integrally forms the upper structure of the first insertion module 100 and the second insertion module 200, 100 and the lower structure B, which integrally form the lower structure of the second insertion module 200, are detachably coupled to each other.

2, the user removes the battery 10 from the insertion ports 110 and 210 as needed by separating the upper structure A and the lower structure B in a state where the battery 10 is coupled to the insertion ports 110 and 210, Can be easily separated.

In addition, in carrying out the present invention, it is preferable that the upper structure A and the lower structure B have the same shape and structure symmetrical to each other so that the usability of the battery pack structure according to the present invention can be enhanced will be.

2, the battery pack structure according to the present invention includes a plurality of insertion holes 110 provided in the first insertion module 100, And a connection plate fixing member 120.

The user can fix the elongated connection plate 500 made long in the transverse direction to the elongated connection plate fixing member 120 through the screws 50 so that the plurality of insertion holes 110 can be electrically connected to each other.

The elongated connection plate fixing member 120 provided in the first insertion module 100 is preferably provided in the second insertion module 200 in the same manner, It is preferable that the members 120 and 220 are symmetrically provided not only in the upper structure A but also in the lower structure B. [

3, the battery pack structure according to the present invention includes any two insertion ports 110 provided adjacent to the first insertion module 100 and a second insertion module 110 facing each of the insertion ports 110, A plate-like connecting plate fixing member 300 such as a hole in which a threaded hole is formed at a central position of four insertion ports 110 and 210 including two optional insertion holes 210 provided adjacent to the base plate 200 .

The user can fix the adjacent battery 10 in the first insertion module 100 by fixing the plate-shaped connection plate 500 made in the square plate shape to the plate-shaped connection plate fixing member 300 through the screw 50. [ And the adjacent batteries 10 in the second insertion module 200 can be electrically connected together.

The plate-shaped connection plate fixing member 300 performing the same structure and function as the plate-shaped connection plate fixing member 300 provided in the first insertion module 100 can be mounted not only on the upper structure A but also on the lower structure B, So as to be symmetrical.

Although not shown in the drawings, in implementing the present invention, an insertion port 110 provided in the first insertion module 100 and a second insertion module 200 formed at a position facing the insertion port 110 By providing a fixing member between the insertion ports 210 provided therein, the elongated connecting plate is fixedly installed in the longitudinal direction by using the fixing member, so that the length of the elongated connecting plate in the first insertion module 100 The battery 10 in the battery 10 and the second insertion module 200 may be electrically connected to each other as needed by the user.

As described above, by connecting various types of connection plates 500 in various directions through the fixing members 120 and 300 provided in the battery pack structure according to the present invention, the user can connect the plurality of batteries 10 in various serial- So that the power supplied through the battery pack structure can be easily controlled.

4 is a view showing a continuous fastening structure of a battery pack structure according to an embodiment of the present invention. As shown in FIGS. 1 and 4, a wedge-shaped protrusion coupling jaw 130 is vertically and continuously provided on a lateral side of a first insertion module 100 of a battery pack structure according to an embodiment of the present invention A grove 230 having a structure capable of engaging with the protruding engaging jaw 130 is formed on the lateral side surface of the second insert module 200, which is the opposite side of the surface provided with the protruding engaging jaws 130, As shown in Fig.

4, the groove 230 provided on the side surface of the second insertion module 200 may include a coupling jaw 130 provided on a side surface of the first insertion module 100 of another adjacent battery pack structure, And the plurality of battery pack structures can be continuously and continuously connected in the longitudinal direction in this manner.

In addition, the adjacent battery pack structures coupled in a sliding manner have a strong coupling force due to the wedge-shaped coupling structure, and the user can easily disassemble the coupling structure by vertically separating the adjacent coupled battery pack structures as needed have.

Meanwhile, as shown in FIG. 4, the continuously-coupled battery pack structure includes a plurality of mounting protrusions 400 provided on both longitudinal sides of the battery pack structure, (600) by inserting it into the groove (650) of the base (600), it can be stably fixed to the base (600) as shown in FIG.

That is, as shown in FIG. 4 and FIG. 5, the battery pack structure according to the present invention is continuously installed, so that not only the emergency power required in the home or company can be sufficiently supplied, but also the installation volume can be minimized.

1 and 4, upper protrusions 140 and 240 are provided at the ends of the outer circumferential surfaces of the insertion ports 110 and 210 of the first insertion module 100 and the second insertion module 200, respectively, .

The upper protrusions 140 and 240 function as fixing stoppers for preventing the battery 10 inserted into the insertion ports 110 and 210 from being pushed out to the upper and lower sides of the insertion ports 110 and 210.

Even when the battery pack structure according to the present invention is stacked in the vertical direction as required, the upper protrusions 140 and 240 may be formed of a connection plate 500 and a connection plate fixing member (not shown) electrically connecting the plurality of batteries 10 120, 220, and 300) to be electrically and physically protected.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

Furthermore, the terms used in the present invention are used only to describe specific embodiments and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

10: battery, 50: screw,
100: first insertion module, 110, 210: insertion opening,
115, 215: protrusion for separation, 120, 220: elongated connection plate fixing member,
130: coupling jaw, 140, 240: upper protrusion,
200: second insertion module, 230: groove,
300: plate-shaped connection plate fixing member, 400: mounting protrusion,
500: connection plate, 600: cradle.

Claims (9)

In the battery pack structure,
A first insertion module (100) having a plurality of insertion openings (110) formed side by side in a lateral direction so that a plurality of batteries (10) form a first row and are inserted side by side;
A plurality of insertion holes 210 connected to the first insertion module 100 and formed in parallel in the lateral direction so as to form a second row parallel to the first row and inserted side by side, A second insertion module 200;
A center of a total of four insertion ports formed by two insertion ports provided adjacent to the first insertion module 100 and two insertion ports facing each of the two insertion ports and adjacent to the second insertion module 200, And a plate type connecting plate for fixing a plate type connecting plate for electrically connecting the battery inserted in the first insertion module to the battery inserted in the second insertion module, A fixing member 300;
A plurality of batteries 10 inserted between the plurality of inserting openings provided in the first inserting module 100 and having long elongated transverse plates for electrically connecting elongated transverse plates electrically connecting the plurality of batteries 10 in the transverse direction, A connection plate fixing member 120; And
The insertion port provided in the first insertion module 100 and the insertion port provided in the second insertion module 200 formed at a position facing the insertion port provided in the first insertion module 100 in the longitudinal direction, A battery 10 inserted into an insertion port provided in the first insertion module 100 and a battery 10 inserted into an insertion port provided in the second insertion module 200 are electrically An elongated vertical connecting plate fixing member for fixing the elongated longitudinal connecting plate to be connected;
/ RTI >
An end portion of each of the plurality of insertion holes 110 provided in the first insertion module 100 and an outer peripheral surface of each of the plurality of insertion holes 210 provided in the second insertion module 200, The upper protrusions 140 and 240 are provided at the ends of the upper protrusions 140 and 240,
And an inner surface of the insertion port is provided with spacing projections (115, 215) for separating the battery (10) inserted into the insertion port from the inner surface of the insertion port,
Wherein the spacing protrusions (115, 215) are continuously provided on an inner surface of the insertion port along a vertical direction in which the battery is inserted into the insertion port.
delete delete The method according to claim 1,
Wherein the battery pack structure is continuously connectable with another adjacent battery pack structure.
5. The method of claim 4,
Wherein a coupling protrusion (130) slidingly coupled to a groove (230) provided in a second insertion module (200) of the other battery pack structure is provided on a lateral side of the first insertion module (100) .
5. The method of claim 4,
The battery pack according to any one of the preceding claims, wherein the second insertion module (200) is provided with a groove (230) slidably coupled to a coupling step (130) of the first insertion module (100) .
The method according to claim 1,
Wherein a mounting protrusion (400) for insertion and mounting in a groove (650) of a mounting table (600) on which the battery pack structure is mounted is provided on both longitudinal side surfaces of the battery pack structure.
The method according to claim 1,
The first insertion module 100 and the second insertion module 200 are integrally formed and the battery pack structure integrally supports the upper structure of the first insertion module 100 and the second insertion module 200 And an upper structure
Wherein the first insertion module (100) and the second insertion module (200) are integrally formed as a lower structure, and the lower structure is detachably coupled to the upper battery pack structure.
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