Patent Grant
9005798
This application claims the benefit of Korean Patent Application No. 10-2009-0102078, filed Oct. 27, 2009 in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference.
1. Field
Embodiments relate to a battery pack, and more particularly, to a high power and high capacity battery pack including a plurality of unit batteries.
2. Description of the Related Technology
Secondary batteries, unlike primary batteries, are rechargeable. Low capacity secondary batteries are used in small portable electronic devices such as phones, notebook computers, camcorders and other similar small portable electronic devices. High capacity secondary batteries are widely used as motor-driving power sources of hybrid vehicles.
Such secondary batteries include cylinder type batteries and prismatic type batteries. In order to drive a motor of a device requiring high capacity, e.g. a motor of an electric vehicle or a hybrid vehicle, a plurality of high power secondary batteries are connected in series to constitute a high capacity secondary battery.
As such, a single high capacity secondary battery, i.e., a battery module, includes unit batteries that are connected in series. Each of the unit batteries includes an electrode assembly having a positive electrode plate, a negative electrode plate, and a separator therebetween, a case receiving the electrode assembly, a cap assembly coupled to the case to close the case, and positive and negative terminals. The positive and negative terminals protrude from the cap assembly and are connected electrically to collectors of the positive and negative electrode plates provided to the electrode assembly. Thus, the unit batteries cells of the battery module are spaced apart from each other and are connected in series or in parallel through electrode tabs. The battery module is inserted into a spacer separating the unit batteries apart from each other. The battery module is electrically connected to a protective circuit module and is disposed in an outer case to constitute a battery pack.
In the battery pack described above, lead wires extending from the protective circuit module contact the unit batteries because a structure for distributing the lead wires is not provided. Thus, when the unit batteries are overheated, the lead wires may melt or become welded so as to contact each other or the unit batteries, and the protective circuit module fails to work.
In addition, when a position where the lead wire extends from the protective circuit module is disposed on an opposite side to a position where the lead wire is connected to the unit battery, it is difficult to distribute the lead wire. Furthermore, since the lead wires extend along connection portions of the unit batteries, the extension lengths of the lead wires are increased, and thus manufacturing costs are increased.
Aspects of the present invention provide a battery pack configured to distribute lead wires connected to a plurality of unit batteries in order to prevent malfunction of the batteries due to contact between the unit batteries and the lead wires.
Aspects of the present invention provide a battery pack configured to distribute lead wires connected to a plurality of unit batteries within minimum distances, thus facilitating a wire distributing process and reducing manufacturing costs.
Aspects of the present invention provide a battery pack including: unit batteries; a spacer disposed between the unit batteries to separate adjacent pairs of the unit batteries; a protective circuit module connected to the unit batteries through lead wires; and a holder surrounding the unit batteries and having paths through which the lead wires pass, respectively.
According to another aspect of the present invention, the holder may include separation walls respectively separating and guiding the lead wires to the unit batteries.
According to another aspect of the present invention, the holder may include hooks binding the lead wires.
According to another aspect of the present invention, the holder may include a top plate and side plates surrounding upper portions and side portions of the unit batteries, respectively.
According to another aspect of the present invention, the holder may be provided with a substrate install part disposed on a top surface of the holder and on which the protective circuit module is installed.
According to another aspect of the present invention, the protective circuit module may include a circuit balancing a current or a voltage of the unit batteries.
According to another aspect of the present invention, the unit batteries may be cylinder type batteries arrayed in a multi-layer structure, and neighboring unit batteries of the unit batteries may have opposite polarities facing a same side.
According to another aspect of the present invention, the spacer may include: a body having a plate shape with a plurality of seat surfaces corresponding to outer surfaces of the unit batteries; and partition walls disposed between the seat surfaces and including a heat diffusion recess.
According to another aspect of the present invention, the spacer may include a lead wire holes disposed in a longitudinal direction of the spacer. The lead wires pass through the lead wire holes to facilitate a wiring process.
According to another aspect of the present invention, the spacer may be formed of soft plastic. The soft plastic may include at least one of polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), polystyrene (CPS), polyethylene terephthalate (PETE).
According to another aspect of the present invention, the battery pack may further include a case receiving the unit batteries and the spacer.
According to another aspect of the present invention, the case may include: a bottom case receiving the unit batteries and the spacer; and a top case closing an open part of the bottom case.
According to another aspect of the present invention, the bottom case may include a bottom plate; and seat recess parts disposed on the bottom plate, wherein the seat recess parts may have a semicircular cross-section, wherein the seat recess parts are arranged in a lattice, and wherein the unit batteries may be placed on the seat recess parts.
According to another aspect of the present invention, the battery pack may further include an electrode tabs electrically connecting the unit batteries to each other and connecting to the lead wires.
According to another aspect of the present invention, the electrode tabs may include contacts welded to the unit batteries, and lead wire connections connected to the lead wires.
According to another aspect of the present invention, an insulation tape may be attached to the electrode tabs to protect the electrode tabs.
Additional aspects and/or advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
These and/or other aspects will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The embodiments are described below in order to explain the present invention by referring to the figures.
Referring to
The battery pack 100 further includes an insulation tape 170 attached to the outer surfaces of the electrode tabs 130, a cushion tape 180, and a bottom case 150 accommodating the insulation tape 170 and the cushion tape 180.
The shown unit batteries 110 are cylinder type batteries, however aspects of the present invention are not limited thereto. Five unit batteries 110 are arranged in series, and two groups of the five unit batteries 110 are arranged in two layers. Neighboring unit batteries 110 have different poles facing a same direction. That is, when an end of one of the neighboring unit batteries 110 has a positive pole (+) facing in one direction, an end of another one of the neighboring unit batteries 110 has a negative pole (−) facing in the one direction. While shown with 5 unit batteries 110 arranged in two layers, other numbers of layers can be used, and other numbers of batteries can be in each layer.
As illustrated in
Lead wire holes 125 pass through the spacer 120 in the longitudinal direction of the spacer body 121. The lead wire holes 125 are disposed between two seat surfaces 122 disposed in the upper layer and two seat surfaces 122 disposed in the lower layer. In
Both ends of the spacer body 121 are provided with stop ribs 126 that prevent movement of the unit batteries 110. The stop rib 126 is provided to at least one end side of the seat surface 122. Thus, the stop ribs 126 prevent the unit batteries 110 from being removed from the spacer body 121. The stop ribs 126 are disposed on both the upper and lower sides of the lead wire holes 125. As illustrated in
The spacer 120 is formed of soft plastic that includes at least one of polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), polystyrene (CPS), polyethylene terephthalate (PETE), or an equivalent thereof. However, aspects of the present invention are not limited thereto and other plastics or similar materials may be used to form the spacer 120. The soft plastic absorbs shock, and supports and protects the unit batteries 110.
As illustrated in
The protective circuit module 140 is provided with a protective circuit (not shown) or an electric device (not shown) that protects the unit batteries 110 when being over-discharged or over-charged. The protective circuit module 140 further includes a circuit configured to balance a current and a voltage when the unit batteries 110 are charged or discharged.
The lead wires 141 extend from the protective circuit module 140. The lead wires 141 connect the protective circuit module 140 to the unit batteries 110. The lead wires 141 pass through the lead wire holes 125 of the spacer 120, and are then fixed to the lead wire connections 132 of the electrode tabs 130.
The bottom case 150 receives the unit batteries 110, the spacer 120, the electrode tabs 130, and the protective circuit module 140, and a top case 160 closes an open upper part of the bottom case 150 when the bottom case 150 has received the unit batteries 110, the spacer 120, the electrode tabs 130, and the protective circuit module 140. The bottom case 150 includes a bottom plate 151 and four sidewalls 152 extending upward from edges of the bottom plate 151.
The inner bottom surface of the bottom plate 151 is provided with a plurality of seat recess parts 153 having a semicircular cross-section, and the unit batteries 110 are placed on the seat recess parts 153. The seat recess parts 153 are arrayed in a lattice at the bottom plate 151. A plurality of gap prevention ribs 154 are provided to the inner surfaces of the sidewalls 152.
The top case 160 has a shape and a size formed so as to close the open upper part of the bottom case 150. Thus, the top case 160 has a plate shape to cover the bottom case 150 approximately having a box shape.
The insulation tape 170 is attached to the outer surfaces of the electrode tabs to protect the electrode tabs 130. The cushion tape 180 prevents the unit batteries 110 placed on the upper surface of the bottom plate 151 from directly contacting the bottom plate 151.
The holder 190, as illustrated in
A method of assembling a battery pack configured as described above, and functions of the assembled battery pack will now be described with reference to
The unit batteries 110 are placed on the seat surfaces 122 on both sides of the spacer 120 such that the neighboring unit batteries 110 have the reverse polarities. The heat diffusion recesses 124 are provided to the partition walls 123 between the seat surfaces 122 to diffuse heat generated from the unit batteries 110 to the outside. The stop ribs 126, alternately disposed at both the ends of the spacer body 121, prevent the unit batteries 110 from being removed from the spacer 120. The stop ribs 126 support both the ends of the unit batteries 110 to prevent the unit batteries 110 from being moved by external shock.
The electrode tabs 130 are welded to both ends of at least two of the unit batteries 110, respectively. Thus, the unit batteries 110 connected to the electrode tabs 130 are connected to each other in series or in parallel.
The insulation tape 170 is attached to the outer surfaces of the electrode tabs 130. The insulation tape 170 has a shape corresponding to the electrode tabs 130 to protect the electrode tabs 130 from contacting the bottom case 150.
The upper side of the unit batteries 110 are coupled to the holder 190. The top plate 191 of the holder 190 envelops the upper surfaces of the unit batteries 110, and the side plates 192 surround the side surfaces of the unit batteries 110. The protective circuit module 140 is installed on the substrate install part 193 provided to the top plate 191 of the holder 190. The lead wires 141 extend out of the protection circuit board 140.
The lead wires 141 are connected to the electrode tabs 130 which are respectively welded to the unit batteries 110. That is, four lead wires 141 extending from the protective circuit module 140 are guided to the unit batteries 110 by the separation walls 194. Thus, two of the four lead wires 141 extending from the protective circuit module 140 are connected directly to the lead wire connections 132 of the electrode tabs 130. The other two of the four lead wires 141 pass through the lead wire holes 125 provided to the spacer 120, and then, are connected to the lead wire connections 132 of the electrode tabs 130 welded on the opposite side to the two lead wires 141 because the neighboring unit batteries 110 have different poles facing the same side. Thus, the lead wires 141 extending from the protective circuit module 140 are connected to the electrode tabs 130 of the unit batteries 110 within minimum distances. When at least two of the four lead wires 141 separated by the separation walls 194 are distributed together, the distributed two lead wires 141 are bound by the hooks 195. Thus, although the lead wires 141 are provided in plurality, the lead wires 141 do not contact the unit batteries 110. Furthermore, even when external shock is applied to the bound lead wires 141, the bound lead wires 141 are not removed from the hooks 195.
As such, a battery module obtained by assembling the unit batteries 110 placed on the spacer 120, the electrode tabs 130, and the protective circuit module 140 is stored in the bottom case 150.
Since the battery module disposed on the bottom plate 151 of the bottom case 150 is placed on the cushion tape 180, the battery module is protected against shock generated from the bottom plate 151. The unit batteries 110, which are not enveloped by the holder 190, or in other words, the unit batteries 110 in a lower layer, are placed respectively on the seat recess parts 153 provided to the bottom plate 151 of the bottom case 150. The spacer 120 is in close contact with the gap prevention ribs 154 provided to the sidewalls 152 of the bottom case 150. As such, the spacer 120 is not moved.
Next, the battery module including the unit batteries 110, the spacer 120, the electrode tabs 130, and the protective circuit module 140, is accommodated in the bottom case 150. Then, the bottom case 150 is coupled to the top case 160 through screws 196 to complete the assembling of the battery pack 100.
According to aspects of the present invention, the high capacity and high power battery pack prevents malfunction of the unit battery due to heat welding of the lead wires distributed in the battery pack when the batteries emit heat.
According to aspects of the present invention, the lead wires connected to the unit batteries are distributed within the minimum distances, thus improving an assembly process and reducing manufacturing costs.
Although a few embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in this embodiment without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
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| 10-2009-0102078 | Oct 2009 | KR | national |
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| Number | Date | Country | |
|---|---|---|---|
| 20110097619 A1 | Apr 2011 | US |
