Electroacoustic converter film

What is claimed is: 1 . An electroacoustic converter film, comprising: a piezoelectric laminate composed of a polymeric composite piezoelectric body in which piezoelectric body particles are dispersed in a viscoelastic matrix formed of a polymer material that exhibits viscoelasticity at normal temperature, an upper thin film electrode formed on one surface of the polymeric composite piezoelectric body and having an area equal to or smaller than that of the polymeric composite piezoelectric body, an upper protective layer formed on a surface of the upper thin film electrode and having an area equal to or greater than that of the upper thin film electrode, a lower thin film electrode formed on a surface of the polymeric composite piezoelectric body opposite to the upper thin film electrode and having an area equal to or smaller than the polymeric composite piezoelectric body, and a lower protective layer formed on a surface of the lower thin film electrode and having an area equal to or greater than that of the lower thin film electrode; a lead-out metal foil for upper electrode which is laminated on a portion of the upper thin film electrode, and of which at least a portion is located on an outside of the polymeric composite piezoelectric body in a surface direction; and a lead-out metal foil for lower electrode which is laminated on a portion of the lower thin film electrode, and of which at least a portion is located on an outside of the polymeric composite piezoelectric body in a surface direction. 2 . The electroacoustic converter film according to claim 1 , wherein the electroacoustic converter film includes an insulating layer which is provided between the upper thin film electrode or further the lead-out metal foil for upper electrode and the polymeric composite piezoelectric body, and of which a portion protrudes from an end portion of the polymeric composite piezoelectric body in a surface direction. 3 . The electroacoustic converter film according to claim 1 , wherein the upper thin film electrode and the upper protective layer have the same shape, and the polymeric composite piezoelectric body and the lower thin film electrode or further the lower protective layer have the same shape, and the upper thin film electrode is smaller than the lower thin film electrode. 4 . The electroacoustic converter film according to claim 1 , wherein the upper thin film electrode and the upper protective layer have an upper electrode lead-out portion that convexly protrudes, and the lead-out metal foil for upper electrode is laminated on the upper thin film electrode of the upper electrode lead-out portion, or further the lower thin film electrode and the lower protective layer have a lower electrode lead-out portion that convexly protrudes, and the lead-out metal foil for lower electrode is laminated on the lower thin film electrode of the lower electrode lead-out portion. 5 . The electroacoustic converter film according to claim 4 , wherein a portion of the lead-out metal foil for upper electrode is disposed between the insulating layer and the upper electrode lead-out portion. 6 . The electroacoustic converter film according to claim 4 , wherein the electroacoustic converter film has either one or both of a configuration in which the lead-out metal foil for upper electrode is folded back so as to sandwich the upper electrode lead-out portion therebetween, and a configuration in which the lead-out metal foil for lower electrode is folded back so as to sandwich the lower electrode lead-out portion therebetween. 7 . The electroacoustic converter film according to claim 1 , wherein the polymeric composite piezoelectric body has a concave portion formed by making a notch into an outer circumference of the polymeric composite piezoelectric body, and the lead-out metal foil for lower electrode is laminated on the lower thin film electrode such that the lead-out metal foil for lower electrode reaches the inside of the concave portion. 8 . The electroacoustic converter film according to claim 1 , wherein the electroacoustic converter film includes a second upper protective layer formed on a surface of the upper protective layer, or further a second lower protective layer formed on a surface of the lower protective layer. 9 . The electroacoustic converter film according to claim 8 , wherein the second upper protective layer or further the second lower protective layer extends up to the outside of the piezoelectric laminate. 10 . The electroacoustic converter film according to claim 1 , wherein the electroacoustic converter film includes a side surface insulating layer that is an insulating layer which covers an entire outer circumference of an end portion of the upper protective layer and covers an entire surface of the polymeric composite piezoelectric body outward beyond the upper protective layer. 11 . The electroacoustic converter film according to claim 10 , wherein at least a portion of the side surface insulating layer extends up to the outside of the piezoelectric laminate. 12 . The electroacoustic converter film according to claim 1 , wherein the electroacoustic converter film includes a tab portion which is provided at an end portion of the piezoelectric laminate and protrudes to the outside of the piezoelectric laminate. 13 . The electroacoustic converter film according to claim 1 , wherein the electroacoustic converter film has either one or both of a configuration in which a through hole is provided in the upper protective layer, and the lead-out metal foil for upper electrode is laminated on the upper thin film electrode through the through hole, and a configuration in which a through hole is provided in the lower protective layer, and the lead-out metal foil for lower electrode is laminated on the lower thin film electrode through the through hole. 14 . The electroacoustic converter film according to claim 13 , wherein the electroacoustic converter film has either one or both of a configuration in which an upper auxiliary metal foil is provided between the polymeric composite piezoelectric body and the upper thin film electrode such that a position of the upper auxiliary metal foil corresponds to a position where the through hole of the upper protective layer is formed, and a configuration in which a lower auxiliary metal foil is provided between the polymeric composite piezoelectric body and the lower thin film electrode such that a position of the lower auxiliary metal foil corresponds to a position where the through hole of the lower protective layer is formed. 15 . The electroacoustic converter film according to claim 13 , wherein a plurality of through holes are provided for one electrode lead-out portion. 16 . The electroacoustic converter film according to claim 1 , wherein a glass transition temperature of the polymer material at a frequency of 1 Hz is 0° C. to 50° C. 17 . The electroacoustic converter film according to claim 1 , wherein the maximum value of loss tangent (Tan δ) at a frequency of 1 Hz of the polymer material, that is 0.5 or higher and is obtained by dynamic viscoelasticity measurement, is present in a temperature range of 0° C. to 50° C. 18 . The electroacoustic converter film according to claim 1 , wherein the polymer material is at least one of cyanoethylated polyvinyl alcohol, polyvinyl acetate, polyvinylidene chloride co-acrylonitrile, a polystyrene-vinyl polyisoprene block copolymer, polyvinyl methyl ketone, and polybutyl methacrylate.