Method and apparatus for cooling an array of rechargeable batteries
First Claim
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1. Apparatus for cooling a plurality of rechargeable batteries, comprising:
- a housing having a longitudinal axis extending from a forward end to a rearward end and sized to carry a plurality of rechargeable batteries of predetermined size, wherein the housing is sized such that an air gap is defined between itself and the plurality of batteries, the air gap having a cross-sectional size that continuously decreases from the housing'"'"'s forward end to its rearward end; and
air cooling means for transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap and thereby cooling the batteries, wherein the speed of the air continuously increases as it is transported along the air gap, due to the air gap'"'"'s continuously decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, wherein the plurality of batteries are provided with a substantially uniform cooling effect and are maintained at a more uniform temperature.
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Abstract
A housing for carrying a plurality of rechargeable batteries is configured such that air gaps defined adjacent to the batteries have a continuously-decreasing cross-sectional area. Cooling air being directed through the air gaps thus increases its speed in inverse relationship with its temperature rise such that all of the batteries are cooled to substantially the same degree. All of the cells of the batteries thereby accept electrical charge at a substantially uniform rate.
102 Citations
20 Claims
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1. Apparatus for cooling a plurality of rechargeable batteries, comprising:
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a housing having a longitudinal axis extending from a forward end to a rearward end and sized to carry a plurality of rechargeable batteries of predetermined size, wherein the housing is sized such that an air gap is defined between itself and the plurality of batteries, the air gap having a cross-sectional size that continuously decreases from the housing'"'"'s forward end to its rearward end; and air cooling means for transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap and thereby cooling the batteries, wherein the speed of the air continuously increases as it is transported along the air gap, due to the air gap'"'"'s continuously decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, wherein the plurality of batteries are provided with a substantially uniform cooling effect and are maintained at a more uniform temperature. - View Dependent Claims (2, 3, 4, 5)
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6. Apparatus for cooling a plurality of rechargeable batteries, comprising:
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a housing having a longitudinal axis extending from a forward end to a rearward end and sized to carry a plurality of rechargeable batteries of predetermined size, wherein the housing is sized such that an air gap is defined between itself and the plurality of batteries, the air gap having a cross-sectional size that decreases from the housing'"'"'s forward end to its rearward end; air cooling means for transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap and thereby cooling the batteries, wherein the speed of the air increases as it is transported along the air gap, due to the air gap'"'"'s decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, whereby the plurality of batteries are maintained at a more uniform temperature; and means for heat-insulating the portion of the battery closest to the housing'"'"'s forward end that is exposed to the air gap, to reduce the cooling effect on that battery of the air being transported through the air gap and thereby further enhance maintenance of the plurality of batteries at a more uniform temperature.
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7. Apparatus for cooling a plurality of rechargeable batteries, comprising:
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a housing having a longitudinal axis extending from a forward end to a rearward end and sized to carry a plurality of rechargeable batteries of predetermined size, wherein the housing is sized such that an air gap is defined between itself and the plurality of batteries, the air gap having a cross-sectional size that decreases from the housing'"'"'s forward end to its rearward end; air cooling means for transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap and thereby cooling the batteries, wherein the speed of the air increases as it is transported along the air gap, due to the air gap'"'"'s decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, whereby the plurality of batteries are maintained at a more uniform temperature; wherein the housing is adapted to carry a plurality of batteries, each battery including a plurality of cells arranged in adjacent relationship along the longitudinal axis and each battery having a forward wall, a rear wall, and two side walls; and the apparatus further includes insulating means for guiding the air being transported through the air gap only alongside the two side walls of each battery and not alongside the forward wall or rear wall of each battery, such that each cell of each battery is exposed to the air gap by substantially the same amount. - View Dependent Claims (8)
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9. An electric vehicle comprising:
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a plurality of rechargeable batteries; an elongated tubular housing having a longitudinal axis extending from a forward end to a rearward end and sized to carry end-to-end a plurality of rechargeable batteries of predetermined size, wherein the housing is sized such that an air gap is defined between itself and the plurality of batteries, the air gap having a cross-sectional size that continuously decreases from the housing'"'"'s forward end to its rearward end; and air cooling means for transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap, and thereby cooling the batteries, wherein the speed of the air continuously increases as it is transported along the air gap, due to the air gap'"'"'s continuously decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, wherein the plurality of batteries are provided with a substantially uniform cooling effect and are maintained at a more uniform temperature. - View Dependent Claims (10, 11, 12)
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13. An electric vehicle comprising:
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a plurality of rechargeable batteries; an elongated tubular housing having a longitudinal axis extending from a forward end to a rearward end and sized to carry end-to-end a plurality of rechargeable batteries of predetermined size, wherein the housing is sized such that an air gap is defined between itself and the plurality of batteries, the air gap having a cross-sectional size that decreases from the housing'"'"'s forward end to its rearward end; air cooling means for transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap, and thereby cooling the batteries, wherein the speed of the air increases as it is transported along the air gap, due to the air gap'"'"'s decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, whereby the plurality of batteries are maintained at a more uniform temperature; and means for heat-insulating the portion of the battery closest to the housing'"'"'s forward end that is exposed to the air gap, to reduce the cooling effect on that battery of the air being transported through the air gap and thereby further enhance maintenance of the plurality of batteries at a more uniform temperature.
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14. An electric vehicle comprising:
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a plurality of rechargeable batteries; an elongated tubular housing having a longitudinal axis extending from a forward end to a rearward end and sized to carry end-to-end a plurality of rechargeable batteries of predetermined size, wherein the housing is sized such that an air gap is defined between itself and the plurality of batteries, the air gap having a cross-sectional size that decreases from the housing'"'"'s forward end to its rearward end; air cooling means for transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap, and thereby cooling the batteries, wherein the speed of the air increases as it is transported along the air gap, due to the air gap'"'"'s decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, whereby the plurality of batteries are maintained at a more uniform temperature; wherein the housing is adapted to carry a plurality of batteries, each battery including a plurality of cells arranged in adjacent relationship along the longitudinal axis and each battery having a forward wall, a rear wall, and two side walls; and the electric vehicle further includes insulating means for guiding the air being transported through the air gap only alongside the two side walls of each battery and not alongside the forward wall or rear wall of each battery, such that each cell of each battery is exposed to the air gap by substantially the same amount. - View Dependent Claims (15)
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16. A method for cooling a plurality of rechargeable batteries, comprising the steps of:
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providing a housing having a longitudinal axis extending from a forward end to a rearward end, the housing being adapted to carry a plurality of batteries and being sized to define an air gap between itself and the plurality of batteries, the air gap having a cross-sectional size that continuously decreases from the housing'"'"'s forward end to its rearward end; and transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap, and thereby cooling the batteries, wherein the speed of the air continuously increases as it is transported along the air gap, due to the air gap'"'"'s continuously decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, wherein the plurality of batteries are provided with a substantially uniform cooling effect and are maintained at a more uniform temperature. - View Dependent Claims (17, 18, 19)
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20. A method for cooling a plurality of rechargeable batteries, comprising the steps of:
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providing a housing having a longitudinal axis extending from a forward end to a rearward end, the housing being adapted to carry a plurality of batteries and being sized to define an air gap between itself and the plurality of batteries, the air gap having a crosssectional size that decreases from the housing'"'"'s forward end to its rearward end; transporting air through the air gap defined by the housing, from the forward end to the rearward end, the air being heated by the batteries as it is transported through the air gap, and thereby cooling the batteries, wherein the speed of the air increases as it is transported along the air gap, due to the air gap'"'"'s decreasing cross-sectional size, to enhance the air'"'"'s heat transfer coefficient in inverse relationship with the temperature differential between the air and the adjacent batteries, whereby the plurality of batteries are maintained at a more uniform temperature; wherein the batteries each include a plurality of cells; the housing provided in the step of providing includes a step of arranging the housing such that each cell of each battery is exposed to the air gap by substantially the same amount; and wherein the housing provided in the step of providing is adapted to carry a plurality of batteries, each battery including a plurality of cells arranged in adjacent relationship along the longitudinal axis and each battery having a forward wall, a rear wall, and two side walls; and the method further includes a step of guiding the air being transported through the air gap only alongside the two side walls of each battery and not alongside the forward wall or rear wall of each battery, such that each cell or each battery is exposed to the air gap by substantially the same amount.
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Specification