Cushion support assembly for vehicle seating assembly

What is claimed is: 1. A vehicle seating assembly comprising: a housing assembly coupled to a seat frame and including: a transverse member; a cushion pan extending between the transverse member and a cross bar; a cushion nose extending between the transverse member and a front portion of the housing assembly; and a gas-generating device deployable in response to a sudden vehicle deceleration to exert a force on the cushion nose to rotate the cushion nose about an axis defined by the transverse member from a first position to a second position, wherein the first position includes a design position, wherein the second position includes a fully deployed position, wherein the cushion pan includes a lip for coupling the cushion pan to the cross bar, and wherein the housing assembly includes first and second elongated portions disposed on first and second sides of the cushion pan. 2. The vehicle seating assembly of claim 1 , wherein the housing assembly includes a u-shaped member defined by the first and second elongated portions and the front portion of the housing assembly. 3. The vehicle seating assembly of claim 2 , further comprising: first and second brackets for securing the u-shaped member to the cross bar. 4. The vehicle seating assembly of claim 1 , wherein the force comprises a compressive force exerted on the cushion nose to move the cushion nose from the design position to the fully deployed position. 5. The vehicle seating assembly of claim 4 , wherein the gas-generating device is disposed below the cushion pan, and wherein the gas-generating device exerts the compressive force on the cushion nose to rotate the cushion nose about the axis defined by the transverse member. 6. The vehicle seating assembly of claim 5 , wherein the gas-generating device is disposed in a cylinder having a telescoping member. 7. The vehicle seating assembly of claim 1 , wherein the cushion nose is disposed at a first angle relative to the cushion pan in the design position, wherein the cushion nose is disposed at a second angle relative to the cushion pan in the fully deployed position, and wherein the first angle is less than the second angle. 8. A vehicle seating assembly comprising: a housing assembly coupled to a seat frame and including: a transverse member; a cushion pan extending between the transverse member and a cross bar; a cushion nose extending between the transverse member and a front portion of the housing assembly; and a gas-generating device deployable in response to a sudden vehicle deceleration to exert a force on the cushion nose to rotate the cushion nose about an axis defined by the transverse member from a first position to a second position, wherein the first position includes a design position, wherein the second position includes a fully deployed position, and wherein the gas-generating device is disposed below the cushion nose and is operably coupled to a cable assembly having a first end secured to the housing assembly below the cushion nose and a second end secured to the cushion nose. 9. The vehicle seating assembly of claim 8 , wherein the force is a tensile force. 10. A vehicle seating assembly comprising: a housing assembly coupled to a seat frame and including: a transverse member; a cushion pan extending between the transverse member and a cross bar; a cushion nose extending between the transverse member and a front portion of the housing assembly; a gas-generating device deployable in response to a sudden vehicle deceleration to exert a force on the cushion nose to rotate the cushion nose about an axis defined by the transverse member from a first position to a second position, wherein the first position includes a design position, wherein the second position includes a fully deployed position, and wherein opposing first and second scissor lifts are disposed between the cushion nose and the housing assembly. 11. The vehicle seating assembly of claim 10 , wherein a gas-generating device is disposed between the first and second scissor lifts, and wherein the first and second scissor lifts each move from a stored position to an extended position to move the cushion nose from the design position to the fully deployed position. 12. A vehicle seating assembly comprising: a housing assembly coupled to a seat frame; a cushion support assembly disposed in the housing assembly and having: a cushion nose rotatably coupled to a cushion pan; a cushion disposed above the cushion support assembly and providing a seat surface; and a pyrotechnic device configured to receive a signal from a restraint control module and to activate in response to the signal to generate a force that rotates the cushion nose about an axis defined by a transverse member of the cushion support assembly from a design position to a fully deployed position, wherein the transverse member comprises an extension tab, wherein the pyrotechnic device is coupled to the extension tab, and wherein activation of the pyrotechnic device exerts a force on the extension tab to move the cushion nose from a design position to a fully deployed position. 13. The vehicle seating assembly of claim 12 , wherein the cushion nose includes first and second bolsters. 14. The vehicle seating assembly of claim 13 , wherein the housing assembly includes first and second protrusions disposed on first and second elongated portions of the housing assembly, and wherein, when the cushion nose is in the fully deployed position, the first and second protrusions engage the first and second bolsters of the cushion nose to limit movement of the cushion nose. 15. The vehicle seating assembly of claim 12 , wherein a front edge of the cushion nose is disposed at a first height in the design position and a second height in the fully deployed position.