Lithium electrochemical accumulator having a terminal directly connected to the electrochemical assembly and associated production methods

The invention claimed is: 1. A lithium electrochemical accumulator including: at least one electrochemical cell made up of at least an anode and a cathode on either side of an electrolyte with which a separator is impregnated, the at least one electrochemical cell defining an electrochemical assembly having an elongated shape along a longitudinal axis with, at one of the lateral ends thereof, uncoated strips of the anode and, at the other of the lateral ends thereof, uncoated strips of the cathode; at least some of the uncoated strips of the anode or of the cathode of the electrochemical assembly being packed together while forming a base; a housing arranged to contain, in a sealed manner, the electrochemical assembly, two current output terminals each connected to either of the at least one anode or of the at least one cathode, one of the terminals called the first terminal passing through a through-hole of a wall of the housing and being electrically insulated therefrom, wherein the first terminal includes a first conducting piece passing through the housing and including a portion, at least one area of which is directly welded on the base, said first conducting piece being monolithic. 2. The electrochemical accumulator as claimed in claim 1 , wherein a second terminal is welded to the housing. 3. The electrochemical accumulator as claimed in claim 1 , wherein the first terminal includes a female second conducting piece, the first conducting piece is male, the accumulator includes two electrically insulating joints in the form of washers, each including a bearing portion surface-bearing with pressure against one of the faces of the wall of the housing and a guide portion projecting with respect to the bearing portion, the guide portion bearing with pressure against a rim of the through-hole of the wall, the male piece is press-fitted into the female piece, each of the conducting pieces including a bearing portion surface-bearing with pressure against the bearing portion of the washers, the female piece furthermore surface-bearing with pressure against the guide portions of the washers. 4. The accumulator as claimed in claim 3 , wherein the male and female pieces are welded together by a weld continuous seam. 5. The accumulator as claimed in claim 1 , wherein the portion is welded to the base by an area of the first conducting piece of lesser thickness with respect to all other areas of said piece. 6. The accumulator as claimed in claim 5 , wherein the area of lesser thickness is an outer peripheral area of the first conducting piece. 7. The accumulator as claimed in claim 5 , wherein the area of lesser thickness is an annular peripheral recess. 8. The accumulator as claimed in claim 1 , wherein the portion is welded onto the base by laser transmission. 9. The accumulator as claimed in claim 1 , wherein the terminals are made of copper or nickel-plated copper. 10. The accumulator as claimed in claim 1 , wherein the uncoated strips of a same electrode are connected to each other by at least a weld radial to an axis of the assembly. 11. The accumulator as claimed in claim 1 , wherein the electrochemical assembly is obtained by winding, the first terminal being welded on the winding axis of the electrochemical assembly. 12. The accumulator as claimed in claim 1 , wherein the electrochemical assembly is obtained by winding, the terminal being welded midway between the winding axis of the electrochemical assembly and the outer periphery of the electrochemical assembly. 13. The accumulator as claimed in claim 1 wherein the accumulator has a generally cylindrical shape. 14. The accumulator as claimed in claim 1 , wherein the accumulator has a generally prismatic shape. 15. The accumulator as claimed in claim 1 , wherein the materials and the dimensions of the first and second conducting pieces are chosen to allow the flow of a current having an intensity equal to or greater than 250 A. 16. A method of producing an electrochemical accumulator as claimed in claim 1 , according to which the following steps are carried out: a. axially packing together, along an axis of the electrochemical assembly, at least some of the uncoated strips of a same electrode of the electrochemical assembly in order to create the base, b. positioning the first conducting piece of the first terminal directly on the base, c. welding the first conducting piece directly to the base. 17. A method of producing an electrochemical accumulator comprising: at least one electrochemical cell made up of at least an anode and a cathode on either side of an electrolyte with which a separator is impregnated, the at least one electrochemical cell defining an electrochemical assembly having an elongated shape along a longitudinal axis with, at one of the lateral ends thereof, uncoated strips of the anode and, at the other of the lateral ends thereof, uncoated strips of the cathode; at least some of the uncoated strips of the anode or of the cathode of the electrochemical assembly being packed together while forming a base; a housing arranged to contain, in a sealed manner, the electrochemical assembly, two current output terminals each connected to either of the at least one anode or of the at least one cathode, one of the terminals called the first terminal passing through a through-hole of a wall of the housing and being electrically insulated therefrom, wherein the first terminal includes a first conducting piece passing through the housing and including a portion, at least one area of which is directly welded on the base, said first conducting piece being monolithic, and wherein the first terminal includes a female second conducting piece; and wherein the method of producing comprises the following steps: a. axially packing together, along an axis of the electrochemical assembly, at least some of the uncoated strips of a same electrode of the electrochemical assembly in order to create the base, b. positioning the first conducting piece of the first terminal directly on the base, c. welding the first conducting piece directly to the base, d. positioning two electrically insulating joints in the form of washers on either side of a hole passing through the wall of the housing, each washer having a hole, e. positioning the second piece of the first terminal through the holes of the washers and the through-hole of the wall of the housing, f. force-fitting a unit made up of the wall, the second piece and the washers on the first conducting piece, g. crimping the first terminal by surface-bearing on an upper surface of the second piece until said upper surface of the second piece is aligned with an upper surface of the first conducting piece passing through the housing and the washers are axially and radially compressed, h. producing a weld continuous seam between the first conducting piece and the second piece. 18. The accumulator as claimed in claim 5 , wherein the area of the first conducting piece of lesser thickness with respect to all other areas of said piece has a thickness e between 0.1 and 0.8 mm, and a width 1 between 0.3 and 2 mm.