Liner plate for work machine

The invention claimed is: 1. A liner plate guard assembly for a work machine having a frame with a frame surface and an axle opening, the guard assembly comprising: a guard member at least partially disposed above the axle opening and projecting outward from the frame surface, the guard member comprising: a lower face, wherein a region of the frame surface and a region of the lower face defining a volume; a first end coupled to the frame surface; and a second end opposite the first end, wherein the guard member continuously slopes downward and toward the axle opening from the first end to the second end; and a liner plate comprising: a body portion defining: an upper surface; a lower surface opposite to the upper surface; a first side surface extending between the upper and lower surfaces, wherein the body portion is adapted to be coupled to the frame surface proximate the first side surface; and a second side surface extending between the upper and lower surfaces, wherein the body portion is adapted to be coupled to the guard member proximate the second side surface, and wherein the body portion continuously slopes upward and away from the axle opening from the first side surface to the second side surface; wherein, upon coupling of the body portion to the frame surface and the guard member, the body portion prevents at least some debris from entering the volume. 2. The guard assembly of claim 1 , wherein, upon coupling of the body portion to the frame surface and the guard member, the first side surface of the body portion is located between the first end of the guard member and the axle opening. 3. The guard assembly of claim 2 , wherein, upon coupling of the body portion to the frame surface and the guard member, the body portion, the frame surface, and the guard member together define a cavity, such that the lower surface of the body portion prevents all debris from entering the cavity. 4. The guard assembly of claim 1 , wherein a first angle is defined between the frame surface and a region of the body portion, and the first angle lies approximately between 10 degrees and 90 degrees. 5. The guard assembly of claim 1 , wherein the first and second side surfaces of the body portion are coupled to the frame surface and the guard member, respectively, by welding. 6. The guard assembly of claim 5 , wherein the first and second side surfaces of the body portion are coupled to the frame surface and the guard member, respectively, by bevel joints. 7. The guard assembly of claim 1 , wherein the body portion is made of a metal. 8. The guard assembly of claim 1 , wherein the body portion defines a first maximum length and a first maximum width, the first maximum length of the liner plate being greater than the first maximum width of the liner plate by a factor of at least 3. 9. The guard assembly of claim 8 , wherein the guard member defines a second maximum length, the second maximum length of the guard member being greater than the first maximum length of the liner plate. 10. The guard assembly of claim 8 , wherein the guard member defines a second maximum width, the second maximum width of the guard member being greater than the first maximum width of the liner plate. 11. A work machine comprising: a frame with a frame surface and an axle opening; and a guard assembly coupled to the frame surface, the guard assembly including: a guard member at least partially disposed above the axle opening and projecting outward from the frame surface, the guard member comprising: a lower face, wherein a region of the frame surface and a region of the lower face defining a volume; a first end coupled to the frame surface; and a second end opposite the first end, wherein the guard member continuously slopes downward and toward the axle opening from the first end to the second end; and a liner plate coupled to the frame surface and the guard member, the liner plate including: a body portion defining: an upper surface; a lower surface disposed opposite to the upper surface; a first side surface extending between the upper and lower surfaces, wherein the body portion is coupled to the frame surface proximate the first side surface; and a second side surface extending between the upper and lower surfaces, wherein the body portion is coupled to the guard member proximate the second side surface, and wherein the body portion continuously slopes upward and away from the axle opening from the first side surface to the second side surface; wherein, upon coupling of the body portion to the frame surface and the guard member, the body portion prevents at least some debris from entering the volume. 12. The work machine of claim 11 , wherein, upon coupling of the body portion to the frame surface and the guard member, the first side surface of the body portion is located between the first end of the guard member and the axle opening. 13. The work machine of claim 11 , wherein, upon coupling of the body portion to the frame surface and the guard member, the body portion, the frame surface, and the guard member together define a cavity, such that the lower surface of the body portion prevents all debris from entering the cavity. 14. The work machine of claim 11 , wherein the first and second side surfaces of the body portion are coupled to the frame surface and the guard member, respectively, by welding. 15. The work machine of claim 11 , wherein the body portion is made of a metal. 16. The work machine of claim 11 , wherein the body portion defines a first maximum length and the guard member defines a second maximum length, the second maximum length being greater than the first maximum length. 17. The work machine of claim 11 , wherein the body portion defines a first maximum width and the guard member defines a second maximum width, the second maximum width being greater than the first maximum width. 18. A method of deflecting debris away from a work machine having a frame with a frame surface and an axle opening, and a guard member at least partially disposed above the axle opening and projecting outward from the frame surface, the guard member having a lower face, wherein a region of the frame surface and a region of the lower face defining a volume, a first end, and a second end opposite the first end, wherein the guard member continuously slopes downward and inward from the first end to the second end, the method comprising: coupling the first end of the guard member to the frame surface; coupling a liner plate to the frame surface, the liner plate including a body portion defining an upper surface, a lower surface opposite the upper surface, a first side surface extending between the upper and lower surfaces, and a second side surface extending between the upper and lower surfaces, wherein the liner plate is coupled to the frame surface proximate the first side surface of the liner plate; and coupling the liner plate to the guard member proximate the second side surface of the liner plate, wherein the body portion continuously slopes upward and away from the axle opening from the first side surface to the second side surface; wherein, upon coupling of the liner plate to the frame surface and the guard member, the lower surface of the liner plate substantially limits access to the volume and prevents at least some debris from entering the volume. 19. The method of claim 18 further comprising coupling the liner plate and the guard member to the frame surface such that the first side surface of the liner plate is located between