Integrated fastener for instrumentation cluster

What is claimed is: 1. An apparatus, comprising: an instrument cluster assembly, including: a front cover; a back cover; at least one integrated fastener integrated into the back cover; and a first mounting aperture formed as part of the back cover, the at least one integrated fastener attached to the back cover and located in the mounting aperture when the at least one integrated fastener is in a first configuration; wherein the at least one integrated fastener is detached from the back cover, and rotated to place the at least one integrated fastener in a second configuration, securing the front cover to the back cover; a base portion; a large flange portion integrally formed with the base portion; and a small flange portion integrally formed with the base portion; wherein both the large flange portion and the small flange portion rotate as the at least one integrated fastener is changed from the first configuration to the second configuration; at least one gate formed as part of the large flange portion; wherein the at least one gate is cut to detach the at least one integrated fastener from the back cover. 2. The apparatus of claim 1 , further comprising: a first recessed portion formed as part of the back cover; and a separation wall formed as part of the back cover in proximity to the first recessed portion; wherein the first mounting aperture is formed as part of the separation wall. 3. The apparatus of claim 2 , further comprising: a second recessed portion formed as part of the front cover; an inner wall formed as part of the second recessed portion; and a second mounting aperture formed as part of the inner wall; wherein at least a portion of the at least one integrated fastener extends through the second mounting aperture when the at least one integrated fastener is in the second configuration. 4. The apparatus of claim 1 , further comprising: at least one mounting projection formed as part of a separation wall; and at least one mounting recess formed as part of the at least one integrated fastener; wherein the at least one mounting projection is disposed in the at least one mounting recess when the at least one integrated fastener is placed in the second configuration. 5. The apparatus of claim 1 , the at least one integrated fastener further comprising: at least one retention surface formed as part of the large flange portion; and at least one retention surface formed as part of the small flange portion; wherein a separation wall and an inner wall are disposed between the at least one retention surface formed as part of the large flange portion and the at least one retention surface formed as part of the small flange portion when the at least one integrated fastener is in the second configuration. 6. The apparatus of claim 5 , wherein the at least one retention surface formed as part of the small flange portion is at least one angled retention surface, increasing the force applied to the separation wall and the inner wall by the at least one integrated faster, as the at least one integrated fastener is rotated. 7. The apparatus of claim 1 , the at least one integrated fastener further comprising: a slot formed as part of the large flange portion; wherein a tool is at least partially inserted into the slot to change the at least one integrated fastener from the first configuration to the second configuration. 8. The apparatus of claim 1 , further comprising: at least one stopper wall formed as part of a first recessed portion; wherein the at least one integrated fastener is in contact with the at least one stopper wall when the at least one integrated fastener is in the second configuration. 9. An instrument cluster assembly having an integrated fastener, comprising: a front cover; a back cover; at least one integrated fastener integrated into the back cover; a first recessed portion formed as part of the back cover; a separation wall formed as part of the back cover in proximity to the first recessed portion; a first mounting aperture formed as part of the separation wall, the at least one integrated fastener attached to the back cover and located in the mounting aperture when the at least one integrated fastener is in a first configuration; at least one mounting projection formed as part of the separation wall; at least one mounting recess formed as part of the at least one integrated fastener; a second recessed portion formed as part of the front cover; an inner wall formed as part of the recessed portion; and a second mounting aperture formed as part of the inner wall; wherein the at least one integrated fastener is detached from the back cover and rotated such that the at least one integrated fastener is placed in a second configuration, and the at least one mounting projection is disposed in the at least one mounting recess, securing the front cover to the back cover. 10. The instrument cluster assembly having an integrated fastener of claim 9 , the at least one integrated fastener further comprising: a base portion; a large flange portion integrally formed with the base portion; a small flange portion integrally formed with the base portion; at least one gate formed as part of the large flange portion; and a slot formed as part of the large flange portion; wherein the at least one gate is integrally formed with the front cover such that the at least one integrated fastener is located in the mounting aperture. 11. The instrument cluster assembly having an integrated fastener of claim 10 , the at least one integrated fastener further comprising: at least one retention surface formed as part of the large flange portion; and at least one retention surface formed as part of the small flange portion; wherein the separation wall and the inner wall are disposed between the at least one retention surface formed as part of the large flange portion and the at least one retention surface formed as part of the small flange portion when the at least one integrated fastener is in the second configuration. 12. The instrument cluster assembly having an integrated fastener of claim 10 , wherein the at least one gate is cut to detach the at least one integrated fastener from the back cover. 13. The instrument cluster assembly having an integrated fastener of claim 10 , wherein the at least one retention surface formed as part of the small flange portion is at least one angled retention surface, increasing the force applied to the separation wall and the inner wall by the at least one integrated fastener as the at least one integrated fastener is rotated. 14. The instrument cluster assembly having an integrated fastener of claim 9 , wherein at least a portion of the at least one integrated fastener extends through the second mounting aperture when the at least one integrated fastener is in the second configuration. 15. The instrument cluster assembly having an integrated fastener of claim 9 , further comprising: at least one stopper wall formed as part of the first recessed portion; wherein the at least one integrated fastener is in contact with the at least one stopper wall when the at least one integrated fastener is in the second configuration. 16. A tool for assembling an instrument cluster assembly, comprising: a main body; a cavity formed as part of the main body; a sleeve at least partially surrounding the main body; an end plate formed as part of the sleeve; a front surface formed as part of the main body; a spring disposed in the cavity between the end plate and the front surface; a keyway formed as p