Arm for construction machine

The invention claimed is: 1. An arm for a construction machine formed as a box-shaped structural body having a square cross sectional surface, having left and right side plates, an upper plate joined to upper end sides of said left and right side plates by welding, a lower plate joined to lower end sides of said left and right side plates by welding, and a rear plate joined to rear end sides of said left and right side plates and a rear end side of said upper plate by welding, comprising: a boom connecting boss located on rear parts on the lower end sides of said left and right side plates and joined to the rear end sides of said left and right side plates and said lower plate and a front end of said rear plate by welding; a bucket connecting boss joined to front ends of said left and right side plates, said upper plate, and said lower plate by welding; and a pair of left and right bucket cylinder brackets joined to an outer surface of said upper plate by welding , characterized in that; said upper plate is formed by joining two members, that is, a rear, thick upper plate located on a rear side of said upper plate and made of a plate material having a large plate thickness and a front, thin upper plate located on a front side of said rear, thick upper plate and made of a plate material having a small plate thickness; said lower plate is formed by joining two members, that is, a rear, thick lower plate located on a rear side of said lower plate and made of a plate material having a large plate thickness and a front, thin lower plate located on a front side of said rear thick lower plate and made of a plate material having a small plate thickness; said left and right side plates are formed by joining two members, that is, a rear, thick side plate located on a rear side of each of said left and right plates and made of a plate material having a large plate thickness and a front, thin side plate located on a front side of each said rear, thick side plate and made of a plate material having a small plate thickness; said pair of said left and right bucket cylinder brackets are configured to be joined to an outer surface of said rear, thick upper plate; said boom connecting boss is configured to be joined to a rear end of said rear, thick lower plate; a joint portion between said rear, thick side plate and said front, thin side plate, said joint portion being configured such that an upper end of said joint portion is joined to said rear, thick upper plate and a lower end of said joint portion is joined to said rear, thick lower plate; an auxiliary welding member having a flat plate shape and provided on an outer surface of the rear part side of said upper plate so as to surround a welded portion between each of said pair of left and right bucket cylinder brackets and said upper plate; and a welding bead formed by applying fillet welding around said auxiliary welding member. 2. The arm for a construction machine according to claim 1 , wherein an internal partition wall for reinforcement is provided between an inner surface side of said rear, thick upper plate and said boom connecting boss. 3. The arm for a construction machine according to claim 1 , wherein said rear plate is formed as a thick rear plate using a plate material having a plate thickness equal to or larger than said rear, thick upper plate and said rear, thick side plates; and said thick rear plate is joined to rear ends of said left and right rear, thick side plates and a rear end of said rear, thick upper plate, and a front end of said thick rear plate is joined to said boom connecting boss. 4. The arm for a construction machine according to claim 1 , wherein a groove extending in an upper-and-lower direction is provided in a front end of each of said rear, thick side plates and a rear end of each of said front, thin side plates by cutting away without a root face; a V-shaped groove without a root face or a gap is formed by having said groove of each of said rear, thick side plates and said groove of each of said front, thin side plates abut each other; and a welding bead is formed by applying welding between each of said rear, thick side plates and each of said front, thin side plates at a position of said V-shaped groove. 5. The arm for a construction machine according to claim 1 , wherein in said bucket connecting boss, flange portions located on both the left and right sides of a cylindrical boss portion and extending toward said left and right side plates are provided; a first V-shaped groove extending in an upper-and-lower direction is provided on each of front ends of said left and right side plates, respectively by cutting away without a root face; a second V-shaped groove extending in the upper-and-lower direction is provided on rear ends of said left and right flange portions of said bucket connecting boss, respectively by cutting away without a root face; and each of said first and second V-shaped grooves, without a root face or a gap, respectively, is formed by abutting said first V-shaped grooves of said left and right side plates and said second V-shaped grooves of said left and right flange portions, and each of welding beads is formed by applying welding between said left and right side plates and said left and right flange portions at the position of said first and second V-shaped grooves. 6. The arm for a construction machine according to claim 1 , wherein a groove extending in a left-and-right direction is provided on each of the front side of said rear, thick upper plate and a rear end of said front, thin upper plate, respectively by cutting away without a root face; a V-shaped groove without a root face or a gap is formed by abutting said groove of said front side of said rear, thick upper plate and said groove of said rear side of said front, thin upper plate; and a welding bead is formed by applying welding between said rear, thick upper plate and said front, thin upper plate at the position of said V-shaped groove. 7. The arm for a construction machine according to claim 1 , wherein a groove extending in a left-and-right direction is provided on the front side of said rear, thick lower plate and a rear end of said front, thin lower plate, respectively by cutting away without a root face; a V-shaped groove without a root face or a gap is formed by abutting said groove of said front side of said rear, thick lower plate and said groove of said rear side of said front, thin lower plate; and a welding bead is formed by applying welding between said rear, thick lower plate and said front, thin lower plate at the position of said V-shaped groove. 8. The arm for a construction machine according to claim 4 , wherein a groove angle of said V-shaped groove is configured to be set within a range of 43 degrees or more and 90 degrees or less. 9. The arm for a construction machine according to claim 1 , wherein an internal partition wall for reinforcement is provided between said boom connecting boss and a position on an inner surface side of said upper plate and on a front side of a position of a connecting pin provided on each of said pair of left and right bucket cylinder brackets; and a rear end of said auxiliary welding member is configured to be extended to a rear side of an upper end portion of said internal partition wall. 10. The arm for a construction machine according to claim 1 , wherein a gap generated between each of said pair of first and second bucket cylinder brackets and said auxiliary welding member on said outer surface of said rear part side of said upper plate is configured to be embedded by a welding bead of each of said pair of first and second bucket cylinder brackets and a welding bead