KR102800204B1 - One-way battery arrangement and multi-way module connection structure - Google Patents

Abstract

The present invention relates to a unidirectional battery arrangement and a multidirectional module connection structure, and more specifically, to a battery module having a plurality of battery cells installed and to a structure that facilitates multidirectional mutual connection of the battery modules.
The present invention comprises a battery module (100) comprising a cylindrical bus bar (110) formed by digging screw fastening grooves (111) in the upper and lower portions, a plurality of battery cells (120) for supplying charged power, an upper cartridge (130) inserted from the upper portion of the battery cells (120) and fixing the upper portions of the battery cells (120) arranged in a plurality of arrays, a lower cartridge (140) inserted from the lower portion of the battery cells (120) and fixing the lower portions of the battery cells (120) arranged in a plurality of arrays, and electrode connecting members (150) welded to the upper and lower portions of the battery cells (120) whose upper and lower portions are fixed by the lower cartridge (140) and the upper cartridge (130), respectively;
In the center of the front, back, left, and right sides of the outer surface of the upper cartridge (130) and the lower cartridge (140), a bus-bar insertion groove (160) into which a bus-bar (110) is inserted is formed by being dug in the longitudinal direction, and an electrode signal line connection portion (151) having an electrode terminal hole (151a) is formed by extending downwardly and bending in the center of the front surface of one electrode connection member (150) among the battery modules (100), and in another electrode connection member (150), a front protrusion portion (152) is formed in the center of the front surface by penetrating a bus-bar insertion hole (170) having the same center as the bus-bar insertion groove (160) of another battery module (100) adjacent to the center of the front surface, and in another electrode connection member (150), a bus-bar insertion hole (170) having the same center as the bus-bar insertion groove (160) of another battery module (100) adjacent to the center of the side surface is formed. This is achieved by configuring a three-type electrode connecting member (150) in which a side protrusion (153) formed by penetrating a bus bar insertion hole (170) is formed in the central portion.

Description

{One-way battery arrangement and multi-way module connection structure}

The present invention relates to a unidirectional battery arrangement and a multidirectional module connection structure, and more particularly, to a battery module having a plurality of battery cells installed therein and a unidirectional battery arrangement and a multidirectional module connection structure that facilitates the multidirectional mutual connection of battery modules.

Typically, a battery pack as an energy storage device is composed of multiple battery cells connected in series or parallel, and due to its portable nature, it is used as a power supply device for electric bicycles, electric scooters, outdoor LED lighting, mobile phone chargers, laptop chargers, and various other home appliances.

As a battery included in the battery module as the above energy storage device, a lithium battery is mainly used recently. The lithium battery includes a lithium ion battery that uses a liquid electrolyte and a lithium polymer battery that uses a solid polymer.

The above battery module is used by connecting multiple lithium-ion batteries in series or parallel.

The above battery module is composed of a structure in which a PCB substrate including a battery cell and a protection circuit module (PCM) are combined.

Here, the battery cell is in the form of an electrode laminated unit composed of a positive electrode sheet and a negative electrode sheet housed within a metal casing, and a positive electrode terminal and a negative electrode terminal are provided on the outer surface of the casing.

Additionally, the protection circuit module is mounted on the outside of the battery cell to prevent explosion and overcharging of the battery.

The battery pack as described above must be able to smoothly discharge heat generated from the battery cells to the outside, and must be configured so as not to be easily damaged by impact applied to the battery cells.

In addition, it is desirable to configure the battery pack so that the overall capacity can be adjusted by allowing multiple battery modules to be easily combined and disassembled.

Republic of Korea Publication Patent No. 10-2016-0020645 (Published on February 24, 2016)

The purpose of the present invention is to provide a battery module having a plurality of battery cells installed and a unidirectional battery arrangement and multidirectional module connection structure that facilitates combining battery modules having various shapes and capacities.

In order to achieve the above-described purpose, the present invention comprises a battery module (100) comprising a cylindrical bus bar (110) formed by digging screw fastening grooves (111) at the upper and lower portions, a plurality of battery cells (120) for supplying charged power, an upper cartridge (130) inserted from the upper portion of the battery cells (120) and fixing the upper portions of the battery cells (120) arranged in a plurality of rows, a lower cartridge (140) inserted from the lower portion of the battery cells (120) and fixing the lower portions of the battery cells (120) arranged in a plurality of rows, and electrode connecting members (150) welded to the upper and lower portions of the battery cells (120) whose upper and lower portions are fixed by the lower cartridge (140) and the upper cartridge (130), respectively;

In the center of the front, back, left, and right sides of the outer surface of the upper cartridge (130) and the lower cartridge (140), a bus-bar insertion groove (160) into which a bus-bar (110) is inserted is formed by being dug in the longitudinal direction, and an electrode signal line connection portion (151) having an electrode terminal hole (151a) is formed by extending downwardly and bending in the center of the front surface of one electrode connection member (150) among the battery modules (100), and in another electrode connection member (150), a front protrusion portion (152) is formed in the center of the front surface by penetrating a bus-bar insertion hole (170) having the same center as the bus-bar insertion groove (160) of another battery module (100) adjacent to the center of the front surface, and in another electrode connection member (150), a bus-bar insertion hole (170) having the same center as the bus-bar insertion groove (160) of another battery module (100) adjacent to the center of the side surface is formed. This is achieved by configuring a three-type electrode connecting member (150) in which a side protrusion (153) formed by penetrating a bus bar insertion hole (170) is formed in the central portion.

Meanwhile, on one side and the front surface of the upper cartridge (130) and the lower cartridge (140), a sliding insertion projection (180) for sliding engagement and a sliding insertion groove (190) for inserting the sliding insertion projection (180) are integrally formed by bending to protrude outward, so that it is more preferable to facilitate the work of mutually connecting the battery module (100) and the battery module (100) as desired by the worker, in which the electrode connection member (150) is welded to the upper and lower portions of the battery cell (120) whose upper and lower portions are fixed by the lower cartridge (140) and the upper cartridge (130), respectively.

According to the present invention, the work of mutually fixing a battery module and a battery module, in which electrode connecting members are welded to the upper and lower parts of a battery cell, the upper and lower parts of which are fixed by a lower cartridge and an upper cartridge, is easily accomplished, and the electrode connecting members welded to the battery module are electrically connected by a bus bar having a cylindrical shape formed by digging screw fastening grooves at the upper and lower parts, so that the battery modules and the battery modules having various shapes and capacities can be easily coupled, is a very useful invention.

Figure 1 is a perspective view showing a battery pack of the present invention.
Figure 2 is a plan view showing the battery pack of the present invention.
Figure 3 is a bottom view showing the battery pack of the present invention.
Figure 4 is an exploded perspective view showing the assembled state of the battery pack of the present invention.
Figure 5 is a perspective view showing the upper cartridge and lower cartridge for the battery pack of the present invention.
Figure 6 is a plan view showing the upper cartridge and lower cartridge for the battery pack of the present invention.
Figure 7 is a front view showing the upper cartridge and lower cartridge for the battery pack of the present invention.
Figure 8 is a perspective view showing an electrode connecting member for a battery pack according to the present invention.
Figure 9 is a plan view showing an electrode connecting member for a battery pack according to the present invention.
Figure 10 is a perspective view showing another electrode connecting member for a battery pack according to the present invention.
Figure 11 is a plan view showing another electrode connecting member for a battery pack according to the present invention.
Figure 12 is a perspective view showing another electrode connecting member for a battery pack according to the present invention.
Figure 13 is a plan view showing another electrode connecting member for a battery pack according to the present invention.
Fig. 14 is a perspective view showing a bus bar for a battery pack according to the present invention.

The technical configuration of the present invention is described in detail with reference to the attached drawings as follows.

FIG. 1 is a perspective view showing a battery pack of the present invention, FIG. 2 is a plan view showing a battery pack of the present invention, FIG. 3 is a bottom view showing a battery pack of the present invention, FIG. 4 is an exploded perspective view showing an assembled state of a battery pack of the present invention, FIG. 5 is a perspective view showing an upper cartridge and a lower cartridge for a battery pack of the present invention, FIG. 6 is a plan view showing an upper cartridge and a lower cartridge for a battery pack of the present invention, FIG. 7 is a front view showing an upper cartridge and a lower cartridge for a battery pack of the present invention, FIG. 8 is a perspective view showing an electrode connecting member for a battery pack of the present invention, FIG. 9 is a plan view showing an electrode connecting member for a battery pack of the present invention, FIG. 10 is a perspective view showing another electrode connecting member for a battery pack of the present invention, and FIG. 11 is a perspective view showing another electrode connecting member for a battery pack of the present invention. FIG. 12 is a plan view, and FIG. 13 is a perspective view showing another electrode connecting member for a battery pack of the present invention, and FIG. 14 is a perspective view showing a bus bar for a battery pack of the present invention.

As illustrated in FIGS. 1 to 14, the battery pack (100) of the present invention comprises a cylindrical bus bar (110) formed by drilling screw fastening grooves (111) at the upper and lower portions, a plurality of battery cells (120) for supplying charged power, an upper cartridge (130) inserted from the upper portion of the battery cells (120) and fixing the upper portions of the battery cells (120) arranged in a plurality of rows, a lower cartridge (140) inserted from the lower portion of the battery cells (120) and fixing the lower portions of the battery cells (120) arranged in a plurality of rows, and electrode connecting members (150) welded to the upper and lower portions of the battery cells (120) whose upper and lower portions are fixed by the lower cartridge (140) and the upper cartridge (130), respectively.

Meanwhile, a bus bar introduction groove (160) into which a bus bar (110) is introduced is formed by digging in the longitudinal direction in the center of the front, rear, left, and right sides of the outer surface of the upper cartridge (130) and lower cartridge (140).

In addition, among the battery modules (100), the electrode connection member (150) of one of the above-described electrode modules (100) is formed with an electrode signal line connection member (151) that is extended downwardly and has an electrode terminal hole (151a) at the front center, and another electrode connection member (150) has a front protrusion (152) formed at the center thereof by penetrating a bus-bar insertion hole (170) having the same center as a bus-bar insertion groove (160) of another battery module (100) adjacent to the front center, and another electrode connection member (150) has a side protrusion (153) formed at the center thereof by penetrating a bus-bar insertion hole (170) having the same center as a bus-bar insertion groove (160) of another battery module (100) adjacent to the side center. The three types of electrode connection members (150) are formed.

In addition, on one side and the front of the upper cartridge (130) and the lower cartridge (140), a sliding insertion projection (180) for sliding engagement and a sliding insertion groove (190) for inserting the sliding insertion projection (180) are integrally formed by bending to protrude outward.

The present invention, which is configured in this manner, has an upper cartridge (130) inserted into the upper portion of a plurality of arranged battery cells (120), and a lower cartridge (140) inserted into the lower portion of the battery cells (120), so that the upper and lower portions of the battery cells (120) are fixed so as not to move.

Meanwhile, the battery module (100) is assembled by welding electrode connecting members (150) that are welded to the upper and lower parts of the battery cell, respectively, on the upper part of the upper cartridge (130) and the lower part of the lower cartridge (140), thereby serving as the upper and lower finishes of the battery module (100).

At this time, an electrode connection member (150) having an electrode signal line connection member (151) formed by extending downwardly and bending at the center of the front surface and having an electrode terminal hole (151a) is formed on the upper surface of one of the battery modules (100) is welded to the upper surface of the battery cell (120), and an electrode connection member (150) having an electrode signal line connection member (151) formed by extending downwardly and bending at the center of the front surface and having an electrode terminal hole (151a) is welded in an upside-down state on the lower surface of another battery module (100) among the battery modules (100), and a side protrusion member (153) formed by penetrating a bus bar insertion hole (170) having the same center as a bus bar insertion groove (160) of another battery module (100) adjacent to the center of the side surface of another battery module (100) among the battery modules (100) is formed in the center. The electrode connecting member (150) and the bus bar insertion hole (170) adjacent to the front center and the bus bar inlet groove (160) of another battery module (100) are formed by penetrating the front protrusion (152) formed in the center, and the electrode connecting member (150) is welded to the upper and lower parts of the battery cell (120), respectively.

In the case where a battery pack is to be manufactured by combining another battery module (100) with a battery module (100) assembled as described above, the sliding insertion projections (180) formed on one side and the front of the upper cartridge (130) and the lower cartridge (140) of the battery module (100) are inserted into the sliding insertion grooves (190) formed on one side and the front of the upper cartridge (130) and the lower cartridge (140) of another battery module (100), thereby assembling the battery pack () in the shape required during the work.

At this time, the electrode connection member (150) to which the battery pack is welded at the upper and lower portions is formed by a cylindrical bus bar (110) having screw fastening grooves (111) dug at the upper and lower portions, and is inserted into the bus bar insertion groove (160) through the bus bar insertion hole (170) by screw fastening through the screw fastening groove (111), so that the electrode connection members (150) and the electrode connection members (150) are maintained in a state of being electrically connected to each other.

It should be understood that the embodiments described above are exemplary in all respects and not restrictive.

In addition, the scope of protection of the present invention is determined by the claims described below rather than the detailed description above, and all changes or modified forms derived from the scope of the claims and their equivalent concepts should be interpreted as being included in the technical scope of the present invention.

100 : Battery module
110 : Bus bar
111: Screw fastening groove
120 : Battery Cell
130 : Upper cartridge
140 : Lower cartridge
150 : Electrode connecting member
151: Electrode signal line connection part
151a: Electrode terminal hole
152: Front protrusion
153: Side projection
160 : Bus bar entrance home
170: Busbar insertion hole

Claims (2)

A battery module (100) is composed of a cylindrical bus bar (110) formed by digging screw fastening grooves (111) at the upper and lower portions, a plurality of battery cells (120) for supplying charged power, an upper cartridge (130) inserted from the upper portion of the battery cells (120) and fixing the upper portions of the battery cells (120) arranged in a plurality of rows, a lower cartridge (140) inserted from the lower portion of the battery cells (120) and fixing the lower portions of the battery cells (120) arranged in a plurality of rows, and electrode connecting members (150) welded to the upper and lower portions of the battery cells (120) whose upper and lower portions are fixed by the lower cartridge (140) and the upper cartridge (130), respectively;
In the center of the front, back, left, and right sides of the outer surface of the upper cartridge (130) and the lower cartridge (140), a bus-bar insertion groove (160) into which a bus-bar (110) is inserted is formed by being dug in the longitudinal direction, and an electrode signal line connection portion (151) having an electrode terminal hole (151a) is formed by extending downwardly and bending in the center of the front surface of one electrode connection member (150) among the battery modules (100), and in another electrode connection member (150), a front protrusion portion (152) is formed in the center of the front surface by penetrating a bus-bar insertion hole (170) having the same center as the bus-bar insertion groove (160) of another battery module (100) adjacent to the center of the front surface, and in another electrode connection member (150), a bus-bar insertion hole (170) having the same center as the bus-bar insertion groove (160) of another battery module (100) adjacent to the center of the side surface is formed. A unidirectional battery arrangement and multidirectional module connection structure characterized by comprising three types of electrode connecting members (150) formed in the central portion with a side protrusion (153) formed by penetrating a bus bar insertion hole (170).
A unidirectional battery arrangement and multidirectional module connection structure according to claim 1, characterized in that a sliding insertion projection (180) for sliding engagement is formed on one side and the front surface of the upper cartridge (130) and the lower cartridge (140), and a sliding insertion groove (190) for inserting the sliding insertion projection (180) is formed integrally by bending so as to protrude outward.