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Method and apparatus for mounting, cooling, connecting and protecting batteriesRelated Patent Categories: Chemistry: Electrical Current Producing Apparatus, Product, And Process, Cell Support For Removable Cell, For Plural CellsMethod and apparatus for mounting, cooling, connecting and protecting batteries description/claimsThe Patent Description & Claims data below is from USPTO Patent Application 20070009787, Method and apparatus for mounting, cooling, connecting and protecting batteries. Brief Patent Description - Full Patent Description - Patent Application Claims
FIELD OF THE INVENTION [0001] The present invention is related to battery systems and more specifically to systems containing multiple batteries. BACKGROUND OF THE INVENTION [0002] Portable electric devices can make use of batteries as a source of power. For example, conventional lithium-ion batteries may be used to power portable or mobile devices. [0003] Conventional batteries generate significant heat from their cores. Exposing a battery to heat can significantly shorten its life, and thus, it is desirable to dissipate the heat from a battery. [0004] To obtain higher current, voltage, or both, from a battery, the battery can be made larger. However, as batteries become larger in size, the ratio of surface area to volume decreases, causing the battery to retain more heat, decreasing its life. As a result, a standard size battery has been developed, referred to as "18650", having dimensions of 18 millimeters by 65 millimeters. Because standard sized batteries can be less expensive to produce than custom-sized batteries, many portable electric devices employ multiple 18650 batteries, and connect them in series, parallel or both, to obtain the desired current and/or voltage. Another advantage of this form factor is that it is produced in large quantities, allowing the costs of such batteries to be lower than other batteries on a cost per milliwatt-hour basis. [0005] Banks of batteries may be connected in parallel to provide higher currents, in series to provide higher voltages, or both. Conventional banks of batteries connect in parallel multiple batteries in each bank, and then connect the banks in series or parallel to achieve the current and voltage desired. However, other configurations may be used to obtain any desired current and voltage. [0006] Some conventional banks of batteries are mounted into a plastic housing. If there are numerous batteries to be mounted, larger banks of batteries may be assembled. Assembling banks of batteries in a plastic housing can be cumbersome and bulky, so one manufacturer has built banks of conventional batteries in an alternative fashion by gluing batteries together in a side-by-side stack, like stacked firewood, and then connecting the terminals in each battery in the stack using a flexible nickel reed. The positive terminals on one end of the batteries are welded to the reed, and the case, which forms the negative connection, is welded to another reed at the opposite end of the row. All of the reeds at one of each of the ends of the stack are electrically connected and an external means of connection is provided at either end of the stack. The stacks are then used as building blocks to build the desired voltage and current. [0007] However, there are significant problems with this technique. One such problem is that each of the stacks is not physically stable, because the form factor of each battery is not perfectly cylindrical. Instead, each battery is slightly conical, and so the ends of each of the batteries in a stack can shift slightly, causing the joints between the batteries to fail. This makes the glued stacks approach particularly unsuitable for environments in which significant vibration can occur, such as automotive applications. The narrower ends of the batteries can be wrapped with tape to even out the diameter of each end of the batteries, but such wrapping is labor intensive, prone to error and subject to failure. [0008] Another problem with stacks of glued batteries is mechanical strength. A stack is only as mechanically strong as the weakest battery in the stack. If the end of a single battery is crushed, the chemicals in the battery can be compressed, causing a short circuit or other reaction that can heat the battery to an extent that a thermal runaway occurs, in which the heat from the initial reaction causes a thermal reaction to become self sustaining and propagate until the battery fails. The heat from the battery can cause the adjacent batteries to incur the same thermal reaction until many or all of the batteries in the stack have failed. The heat from multiple such reactions can ignite adjacent materials. Turning the batteries on their sides like stacks of firewood can make the problem worse in certain environments, such as when the stack has a large number of batteries in a vibration-prone environment. The force from the vibrations can cause upper batteries to crush the lower batteries in the stack, causing the lower batteries to fail. [0009] Additionally, conventional banks of batteries suffer from the problem that the conductors running across, and connected to, the positive "button" on top of the batteries can be pressed into the case of the battery during a significant impact, causing a short circuit between the positive button terminal and the electrically negative case. This makes banks of batteries particularly unsuitable for applications such as an electric or hybrid automobile, or other applications in which the batteries are likely to be vibrated or crushed. The case of the battery is insulated by a thin plastic or other material, such as Mylar. However, during an impact, the conductors that draw the positive current from the battery button terminal can burst through this insulating material to the metallic battery case, which is electrically connected to the negative terminal, thereby shorting the battery. Such an occurance could also happen simply due to vibrations occurring over an extended period of time. [0010] Still another problem with batteries that are arranged with their edges contacting is that the heat from the batteries can cause the batteries in the center of the stack to become hotter than the batteries at the edges. As noted above, hotter batteries fail sooner than batteries that remain cool. [0011] When multiple banks of batteries are interconnected, the connections between each bank must be manually made, increasing the costs of manufacturing. Wiring for voltage and temperature sensors at various points in the stack to allow for optimum performance further increase the costs of manufacturing. [0012] Furthermore, the space in which the banks of batteries will be placed may not fit the banks exactly, requiring extra space to be allocated for the batteries, wasting space, and such space may be valuable in certain applications. The banks can each be made relatively smaller to reduce any wasted space, but this approach increases the need for interconnection, adding additional cost and potential points of failure. [0013] What is needed is a system and method for providing multiple batteries in a manner that is physically strong and stable, can resist accidental crushing of one or more batteries, when handled or in an environment of vibration, that can resist crushing a conductor attached to the positive terminal into the negative body of the battery, that operates cooler and at a more even temperature than a glued stack or one in which the edges are otherwise touching, that does not require manual connection of each stack, and that can be shaped to more closely fit the available space. SUMMARY OF INVENTION [0014] A system and method sandwiches batteries between a rigid substrate that can distribute force across multiple batteries or other structures such as walls placed among the batteries, making them less likely to be crushed when resisting a force applied to the substrate. The substrate can be shaped to approximately fit the cross section of the available space, maximizing the use of the available space. Multiple conductors connected to the batteries via holes in the substrate draw power as well as connect the batteries in parallel, series, or both, to provide the proper current and voltage. However, the holes in the substrate are designed to lessen the likelihood that the conductor connected to the positive terminal will be shorted to the negative body of the battery in the event a force is applied that brings the batteries closer to any of the conductors. Cooling may be accomplished via air cooling or water cooling. Air may be blown among the batteries via holes in the substrates and conductors, and optionally an insert with mounts for the batteries containing integrated air holes to save space. Alternatively, or in addition to the air cooling system, cooling tubes may be run among the batteries to allow heat to be drawn away from the batteries. The cooling tubes are run adjacent to the batteries, in a structure that contains a pair of adjacent cooling tubes. Each adjacent tube has an opposite direction of flow from the other tube, and a connector connects the tubes at one end, allowing the coolant to flow past the batteries in one direction, then loop back in the other direction, to allow the coolant to not only absorb heat from the batteries, but to also maintain a more constant temperature of the batteries than would be possible if coolant having a single direction of flow was run past the batteries. The tubes may be physically connected to each other to allow heat from the tubes to be exchanged, helping to maintain a more even temperature of coolant through the tubes. The more constant temperature is maintained because the coolant along each section of the adjacent pair of tubes not only exchanges heat with the coolant in the adjacent tube, the coolest sections at the inlet are adjacent to the hottest sections at the outlet. BRIEF DESCRIPTION OF THE DRAWINGS [0015] FIG. 1 is a block diagram of a bank of batteries according to one embodiment of the present invention. [0016] FIG. 2A is a diagram showing a creation of a mount and a hole in the substrate used to hold the batteries in the bank according to one embodiment of the present invention. [0017] FIG. 2B is a diagram of four mounts in a substrate used to hold batteries in a bank according to one embodiment of the present invention. [0018] FIG. 3 is a side view of batteries in a bank including two substrates and two conductors with electrical connection brackets according to one embodiment of the present invention. [0019] FIG. 4 is a diagram of two conductors with a representative bracket, including an alternate view of the bracket to show its geometry according to one embodiment of the present invention. [0020] FIG. 5 is a side view of five sets of batteries coupled using conductors according to one embodiment of the present invention. Continue reading about Method and apparatus for mounting, cooling, connecting and protecting batteries... 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