Lithium battery protected from intrusion by pointed elements

The invention claimed is: 1. A lithium or lithium ion battery comprising: a battery cell PEN which has a film of an electrolyte E containing a lithium salt between a film P forming a positive electrode and a film N forming a negative electrode, or a stack of battery cells PEN, said stack comprising two terminal battery cells between which one or more intermediate battery cells are optionally placed, each of the positive electrodes has a current collector forming a connection layer, bearing a film of positive electrode material capable of reversibly inserting lithium ions, and each of the negative electrodes has a current collector forming a connection layer, bearing a film of negative electrode material capable of reversibly inserting lithium ions or has a film of a metallic material forming a connection layer selected from the group consisting of lithium, lithium alloys and intermetallic lithium compounds, wherein said battery has at least two protective films Fp made of an elastic material having an elongation at break denoted by a me and a thickness denoted by e me , at least one of the electrodes of the battery cell or of each terminal battery cell being in contact with a protective film Fp made of an elastic material, wherein at least one of said protective films Fp is in contact with a connection layer of an electrode, said connection layer having a thickness emax, said protective film having a thickness such that e me >e max /a me , so that: when said electrode with a connection layer that is in contact with the protective film Fp is a current collector bearing a film of electrode material, said protective film Fp is placed between the current collector and the film of electrode material, and when said electrode with a connection layer that is in contact with the protective film Fp is a film of a metallic material selected from the group consisting of lithium, lithium alloys and intermetallic lithium compounds, said protective film Fp is applied to said film of metallic material. 2. The battery as claimed in claim 1 , wherein the electrolyte is a solid electrolyte. 3. The battery as claimed in claim 1 , wherein said battery has a single battery cell PEN and that at least one of the faces of each electrode is in contact with said protective film Fp. 4. The battery as claimed in claim 1 , wherein said battery has groups of battery cells assembled in parallel, said groups of battery cells assembled in parallel being assembled in series. 5. The battery as claimed in claim 1 , wherein said battery has multiple battery cells PEN, which are stacked so that: the positive electrodes of two adjacent battery cells are combined as one and are formed by a single current collector bearing a film of positive electrode active material on each of its faces; the negative electrodes of two adjacent battery cells are combined as one and are formed either by a single current collector bearing a film of negative electrode active material on each of its faces; or by a film of a metallic material selected from the lithium, lithium alloys and intermetallic lithium compounds; a positive terminal electrode includes a current collector bearing a positive electrode active material on one of its faces; and a negative terminal electrode includes either one of a current collector bearing a negative electrode active material on one of its faces, or of a film of a metallic material chosen from lithium, lithium alloys and intermetallic lithium compounds. 6. The battery as claimed in claim 5 , wherein the negative electrodes have a current collector bearing a negative electrode active material, wherein: said battery has a protective film on each face of the current collector of each electrode of a given sign, said protective film has a thickness e me such that e me ≥e max /a me , e max being at least equal to the thickness of a current collector, a protective film is placed on the upstream face of the positive current collectors, and on the downstream face of the negative current collectors, “upstream” and “downstream” being understood with respect to the direction of penetration of a conductive pointed element. 7. The battery as claimed in claim 5 , wherein the negative electrodes have a current collector bearing a negative electrode active material, wherein a protective film is affixed to at least one of the faces of the current collector of each terminal electrode, said film having a thickness e me such that e me ≥e max-Tot /a me , e max-Tot being at least equal to the thickness of all of the superposed battery cells. 8. The battery as claimed in claim 5 , wherein the negative electrodes have a current collector bearing a negative electrode active material, wherein a protective film is affixed to each face of the current collector of each electrode of a given sign, said film having a thickness such that e me ≥e max-Tot /a me , e max-Tot being at least equal to the thickness of a battery cell. 9. The battery as claimed in claim 5 , wherein the negative electrodes have a current collector bearing a negative electrode active material, wherein a protective film is placed on the upstream face of the positive current collectors, and on the downstream face of the negative current collectors, “upstream” and “downstream” being understood with respect to the direction of penetration of a conductive pointed element, said film having a thickness e me such that e me ≥e max-Tot /a me , e max-Tot being at least equal to the thickness of a battery cell. 10. The battery as claimed in claim 5 , wherein the negative electrodes have a film of metallic material, wherein a protective film is placed on each face of the current collector of each positive electrode, said film having a thickness e me such that e me ≥e max /a me , e max being at least equal to the thickness of a current collector of the positive electrode. 11. The battery as claimed in claim 5 , wherein the negative electrodes have a film of metallic material, wherein a protective film is placed on each face of each negative electrode, said film having a thickness e me such that e me ≥e max /a me , e max being at least equal to the thickness of the negative electrode taking into account the stretching of the material forming this negative electrode, or to the thickness of the electrolyte and of the positive electrode placed after the protective film. 12. The battery as claimed in claim 5 , wherein the negative electrodes have a film of metallic material, wherein a protective film is placed on the upstream face of the positive current collectors, and on the downstream face of the negative current collectors, “upstream” and “downstream” being understood with respect to the direction of penetration of a conductive pointed element, said film having a thickness e me such that e me ≥e max /a me , e max being at least equal to the largest thickness among the thickness of a current collector and the thickness of the negative electrode taking into account the stretching thereof. 13. The battery as claimed in claim 5 , wherein the negative electrodes have a film of metallic material, and the terminal electrodes are negative electrodes, wherein a protective film is affixed to the outer face of each terminal electrode, said film having a thickness e me such that e me ≥e max-Tot /a me , e max-Tot being at least equal to the thickness of all of the superposed battery cells, and a protective film is affixed: Either one of to each of the faces of the current collectors of the positive electrodes, by choosing a film material and thickness such that e me ≥e max /a me , e max being at least equal to the thickness of a current collector; or