Coupling mechanism for a utility module

What is claimed is: 1. A coupling mechanism comprising: a housing; a first locking panel comprising a first inner surface and an opposing first outer surface, the first locking panel slideably actuates along a first axis; a second locking panel comprising a second inner surface and an opposing second outer surface, the second outer surface facing away from the first outer surface, the second locking panel slideably actuates along the first axis; a locking mechanism rotateably coupled to the housing, the locking mechanism rotating with respect to the housing around a second axis, the locking mechanism actuating between an unlocked position and a locked position, the locking mechanism comprising an interfacing portion that interfaces with each of the first inner surface and the second inner surface, the first outer surface and the second outer surface define a first width when the locking mechanism is in the unlocked position, and when the locking mechanism actuates from the unlocked position to the locked position the locking mechanism biases the first locking panel and the second locking panel away from each other, such that when the locking mechanism is in the locked position the first outer surface and the second outer surface define a second width greater than the first width; and a first biasing element that biases the first locking panel towards the second locking panel. 2. The coupling mechanism of claim 1 , comprising a second biasing element that biases the second locking panel towards the first locking panel. 3. The coupling mechanism of claim 1 , wherein the first locking panel and the second locking panel each comprise an upper surface configured to interface against opposing tabs extending over a recess defined by a modular storage unit, the coupling mechanism configured to be coupled within the recess of the modular storage unit. 4. The coupling mechanism of claim 1 , further comprising: a shaft coupled to the locking mechanism, the shaft comprises a detent that biases the locking mechanism to remain in the locked position. 5. The coupling mechanism of claim 1 , the interfacing portion of the locking mechanism defining an oval shape. 6. The coupling mechanism of claim 1 , the interfacing portion of the locking mechanism defining a first diameter and a second diameter longer than the first diameter, wherein the first diameter is aligned with the first axis when the locking mechanism is in the unlocked position and the second diameter is aligned with the first axis when the locking mechanism is in the locked position. 7. The coupling mechanism of claim 6 , comprising a second biasing element that biases the second locking panel towards the first locking panel. 8. A coupling mechanism comprising: a housing; a first locking panel that slideably actuates along a first axis; a second locking panel that slideably actuates along the first axis, the first locking panel and the second locking panel collectively defining a width; and a cam rotateably coupled to the housing, the cam comprising a periphery that interfaces with each of the first locking panel and the second locking panel, the cam rotating with respect to the housing around a second axis, the cam actuating between an unlocked position and a locked position, the cam comprising: a first portion of the periphery that interfaces with the first locking panel, the first portion extending from a first end to a second end, the first end extending a first distance from the second axis and the second end extending a second distance from the second axis further than the first distance, and wherein the first portion biases the first locking panel away from the second locking panel when the cam actuates from the unlocked position to the locked position; a second portion of the periphery that interfaces with the second locking panel, the second portion extending from a third end to a fourth end, the third end extending the first distance from the second axis and the fourth end extending the second distance from the second axis, and wherein the second portion biases the second locking panel away from the first locking panel when the cam actuates from the unlocked position to the locked position; a first ledge that extends between the first end of the first portion and the fourth end of the second portion, the first ledge biasing the second locking panel towards the first locking panel when the cam actuates from the locked position to the unlocked position; and a second ledge that extends between the third end of the second portion and the second end of the first portion, the second ledge biasing the first locking panel towards the second locking panel when the cam actuates from the locked position to the unlocked position. 9. The coupling mechanism of claim 8 , wherein the second axis is perpendicular to the first axis. 10. The coupling mechanism of claim 8 , wherein the first locking panel and the second locking panel each comprise an upper surface configured to interface against opposing tabs extending over a recess defined by a modular storage unit, the coupling mechanism configured to be coupled within the recess of the modular storage unit. 11. The coupling mechanism of claim 8 , the first ledge comprises a first interfacing surface that interfaces with the second locking panel, the first interfacing surface generally radially aligned with the second axis. 12. The coupling mechanism of claim 11 , the second ledge comprises a second interfacing surface that interfaces with the first locking panel, the second interfacing surface generally radially aligned with the second axis. 13. The coupling mechanism of claim 8 , the housing comprising a front surface that faces away from the first locking panel and the second locking panel, the coupling mechanism comprising: a curved recess in the front surface of the housing, the curved recess extending circumferentially around the second axis from a first end to a second end; and an interfacing element rotateably coupled to the housing, the interfacing element coupled to the cam such that the interfacing element rotates with respect to the housing about the second axis, a portion of the interfacing element rotating within the curved recess between the first end and the second end when the cam actuates between an unlocked position and a locked position.