Power distribution module
First Claim
Patent Images
1. A power distribution module for use on mobile equipment comprising:
- a housing comprising a front face;
a power input port integrally formed with the housing, wherein the power input port comprises an input port sidewall, a first input port wedge-lock receiver formed in the input port sidewall, a second input port wedge-lock receiver formed in the input port sidewall, a first input port wedge-lock retention tab receiver formed in the first input port wedge-lock receiver, and a second input port wedge-lock retention tab receiver formed in the second wedge-lock receiver;
a plurality of output ports integrally formed with the housing, wherein each output port of the plurality of output ports comprises an output port sidewall, an output port wedge-lock receiver formed in the output port sidewall, and an output port wedge-lock retention tab receiver formed in the output port wedge-lock receiver;
a printed circuit board disposed within the housing, wherein the printed circuit board comprises an input port junction and a plurality of output port junctions, wherein each output port junction of the plurality of output port junctions is in electrical communication with the input port junction;
a plurality of input pins connected to the printed circuit board at the input port junction, wherein each input pin of the plurality of input pins is operably aligned with the power input port;
a plurality of output pins connected to the printed circuit board, wherein each output pin of the plurality of output pins is connected to the printed circuit board at one output port junction of the plurality of output port junctions, and wherein each output pin of the plurality of output pins is operably aligned with one output port of the plurality of output ports;
a light emitting diode connected to the printed circuit board, wherein the light emitting diode is in electrical communication with the input port junction;
a translucent resin layer disposed between at least a portion of the printed circuit board and the housing, wherein the light emitting diode is disposed between the translucent resin layer and the printed circuit board, and wherein the translucent resin layer contacts at least a portion of the printed circuit board; and
,a thermally conductive resin layer disposed adjacent the printed circuit board, wherein the thermally conductive resin layer contacts at least a portion of the printed circuit board.
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Abstract
A power distribution module for use on mobile equipment is described in the present disclosure and can include a housing having a power input port and a plurality of output ports integrally formed with the housing and open to an outer surface of the housing. Each of the input port and the output ports are configured to receive and secure a connector that is pushed and locked into place, thereby sealing the connection. The power distribution module can be used to split a single power line into multiple lines connected to electrical devices mounted on a piece of mobile equipment.
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Citations
16 Claims
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1. A power distribution module for use on mobile equipment comprising:
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a housing comprising a front face; a power input port integrally formed with the housing, wherein the power input port comprises an input port sidewall, a first input port wedge-lock receiver formed in the input port sidewall, a second input port wedge-lock receiver formed in the input port sidewall, a first input port wedge-lock retention tab receiver formed in the first input port wedge-lock receiver, and a second input port wedge-lock retention tab receiver formed in the second wedge-lock receiver; a plurality of output ports integrally formed with the housing, wherein each output port of the plurality of output ports comprises an output port sidewall, an output port wedge-lock receiver formed in the output port sidewall, and an output port wedge-lock retention tab receiver formed in the output port wedge-lock receiver; a printed circuit board disposed within the housing, wherein the printed circuit board comprises an input port junction and a plurality of output port junctions, wherein each output port junction of the plurality of output port junctions is in electrical communication with the input port junction; a plurality of input pins connected to the printed circuit board at the input port junction, wherein each input pin of the plurality of input pins is operably aligned with the power input port; a plurality of output pins connected to the printed circuit board, wherein each output pin of the plurality of output pins is connected to the printed circuit board at one output port junction of the plurality of output port junctions, and wherein each output pin of the plurality of output pins is operably aligned with one output port of the plurality of output ports; a light emitting diode connected to the printed circuit board, wherein the light emitting diode is in electrical communication with the input port junction; a translucent resin layer disposed between at least a portion of the printed circuit board and the housing, wherein the light emitting diode is disposed between the translucent resin layer and the printed circuit board, and wherein the translucent resin layer contacts at least a portion of the printed circuit board; and
,a thermally conductive resin layer disposed adjacent the printed circuit board, wherein the thermally conductive resin layer contacts at least a portion of the printed circuit board. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A power distribution module for use on mobile equipment comprising:
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a housing comprising a front face, wherein the housing comprises a glass-filled nylon 6,6 polymeric compound; a power input port integrally formed on the front face of the housing, wherein the power input port comprises an input port sidewall, a first input port wedge-lock receiver formed in the input port sidewall, a second input port wedge-lock receiver formed in the input port sidewall, a first input port wedge-lock retention tab receiver formed in the first input port wedge-lock receiver, and a second input port wedge-lock retention tab receiver formed in the second wedge-lock receiver, wherein the power input port comprises a glass-filled nylon 6,6 polymeric compound; a plurality of output ports integrally formed on the front face of the housing, wherein each output port of the plurality of output ports comprises an output port sidewall, an output port wedge-lock receiver formed in the output port sidewall, and an output port wedge-lock retention tab receiver formed in the output port wedge-lock receiver, wherein each output port of the plurality of output ports comprises a glass-filled nylon 6,6 polymeric compound; a printed circuit board disposed within the housing, wherein the printed circuit board comprises an input port junction, a plurality of output port junctions, and a fixed trace connected to the input port junction and each output port junction of the plurality of output port junctions, wherein each of the plurality of output port junctions is in electrical communication with the input port junction; a plurality of input pins connected to the printed circuit board at the input port junction, wherein each of the plurality of input pins are operably aligned with and press fitted into the power input port; a plurality of output pins connected to the printed circuit board, wherein each of the plurality of output pins is connected to the printed circuit board at one output port junction of the plurality of output port junctions, and wherein each output pin of the plurality of output pins is operably aligned with and press fitted into one output port of the plurality of output ports; a plurality of light emitting diodes disposed on the printed circuit board, wherein each output port junction of the plurality of output port junctions is in electrical communication with at least one light emitting diode of the plurality of light emitting diodes; a plurality of constant-current diodes disposed on the printed circuit board, wherein each constant-current diode of the plurality of constant-current diodes is in electrical communication with one output port junction of the plurality of output port junctions and one light emitting diodes of the plurality of light emitting diodes; a translucent resin layer disposed between at least a portion of the printed circuit board and the housing, wherein the translucent resin layer is disposed between the plurality of light emitting diodes and the housing, and wherein the translucent resin layer contacts at least a portion of the printed circuit board; and
,a thermally conductive resin layer disposed adjacent the printed circuit board, wherein the thermally conductive resin layer contacts at least a portion of the printed circuit board, wherein the printed circuit board is sealed by the translucent resin layer and the thermally conductive resin layer.
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Specification