Adjustment mechanism for a headband arrangement of a safety helmet

What is claimed is: 1. An adjustment mechanism for a headband arrangement having a headband member with at least one headband notched track positioned on an end thereof, the adjustment mechanism comprising: a rotatable knob having at least one first contact member; a rotatable hub member having at least one second contact member and a gear portion with teeth configured to contact the at least one headband notched track of the headband member, such that rotation of the hub member in a first direction causes the headband member to tighten and rotation of the hub member in a second direction causes the headband member to loosen; and a rotatable notched track member comprising a plurality of teeth, wherein the at least one second contact member of the hub member is configured to contact at least a portion of the plurality of teeth of the rotatable notched track member, wherein, upon rotation of the knob in the first direction, contact between the at least one first contact member and at least a portion of the hub member causes the hub member to rotate in the first direction with at least a portion of the hub member interacting with the rotatable notched track member, such that the rotatable notched track member does not rotate, and upon rotation of the knob in the second direction, contact between the at least one second contact member and at least a portion of the rotatable notched track member causes the hub member to rotate in the second direction with at least a portion of the at least one second contact member interacting with the rotatable notched track member, such that the rotatable notched track member rotates in the second direction, and wherein each of the plurality of teeth of the rotatable notched track member comprise a sloped portion and a contact portion, such that when the hub member is turned in the first direction, at least a portion of the hub member slides along the sloped portion of at least one tooth of the plurality of teeth and into contact with the contact portion of the at least one tooth of the plurality of teeth. 2. The adjustment mechanism of claim 1 , wherein the at least one first contact member is a surface of at least one notch that is rotatable upon rotation of the knob and configured to contact at least one key of the hub member positioned at least partially within the notch, thereby rotating the hub member in the first direction. 3. The adjustment mechanism of claim 1 , wherein the hub member comprises at least one spring arm, wherein an end portion of the at least one spring arm slides along the sloped portion of at least one of the plurality of teeth and into contact with the contact portion of the at least one of the plurality of teeth. 4. The adjustment mechanism of claim 3 , wherein the at least one spring arm comprises a substantially flexible material, such that the at least one spring arm is configured to flex during movement in the first direction. 5. The adjustment mechanism of claim 1 , wherein the hub member comprises at least one spring arm, and wherein the at least one second contact member comprises at least a portion of the at least one spring arm, such that when the hub member is turned in the second direction, the at least a portion of the at least one spring arm contacts the rotatable notched track member and urges the rotatable notched track member in the second direction. 6. The adjustment mechanism of claim 5 , wherein when the hub member is turned in the second direction, an end portion of the at least one spring arm contacts at least a portion of the contact portion of at least one tooth of the plurality of teeth and urges the rotatable notched track member in the second direction. 7. The adjustment mechanism of claim 1 , wherein the rotatable notched track member comprises an inner surface comprising the plurality of teeth, and an outer surface, wherein the outer surface is configured to contact and slide with respect to a portion of the adjustment mechanism. 8. The adjustment mechanism of claim 7 , wherein the outer surface of the rotatable notched track member is sloped and seated against a corresponding sloped surface of the portion of the adjustment mechanism. 9. The adjustment mechanism of claim 7 , wherein the rotatable notched track member comprises at least one urging spring arm configured to contact at least a portion of the rotatable knob, such that the rotatable notched track member is urged in a downward direction and against the portion of the adjustment mechanism. 10. The adjustment mechanism of claim 7 , wherein the portion of the adjustment mechanism includes a retention rim configured to contact at least a portion of the rotatable notched track member and prevent further downward movement when the rotatable notched track member is seated in the portion of the adjustment mechanism. 11. The adjustment mechanism of claim 7 , wherein the portion of the adjustment mechanism is an inner surface of a rim projecting from a first ratchet housing of the adjustment mechanism. 12. The adjustment mechanism of claim 11 , wherein the first ratchet housing is engageable with a second ratchet housing. 13. The adjustment mechanism of claim 12 , wherein the second ratchet housing comprises a central post, wherein the hub member includes a central bore through which the central post extends, such that the hub member is rotatable around the central post in the first and second directions. 14. The adjustment mechanism of claim 1 , further comprising a central post, wherein the hub member includes a central bore through which the central post extends, such that the hub member is rotatable around the central post in the first and second directions. 15. The adjustment mechanism of claim 14 , wherein the central post comprises: a central bore into which a stem is at least partially inserted and at least one notch, wherein the stem comprises at least one projection configured to be at least partially inserted in the at least one notch. 16. A suspension system for a safety helmet, comprising: a headband arrangement having a headband member with at least one notched track positioned on an end thereof; at least one strap connected to at least one tab, wherein the at least one tab is configured to be inserted at least partially into at least one headband slot positioned on an internal surface of the safety helmet; and an adjustment mechanism, comprising: (i) a rotatable knob having at least one first contact member; (ii) a rotatable hub member having at least one second contact member and a gear portion with teeth configured to contact the at least one headband notched track of the headband member, such that rotation of the hub member in a first direction causes the headband member to tighten and rotation of the hub member in a second direction causes the headband member to loosen; and (iii) a rotatable notched track member comprising a plurality of teeth, wherein the at least one second contact member of the hub member is configured to contact at least a portion of the plurality of teeth of the rotatable notched track member, wherein, upon rotation of the knob in the first direction, contact between the at least one first contact member and at least a portion of the hub member causes the hub member to rotate in the first direction with at least a portion of the hub member interacting with the rotatable notched track member, such that the rotatable notched track member does not rotate, and upon rotation of the knob in the second direction, contact between the at least one second contact member and at least a portion of the rotatable notched track member cause