Antenna and portable wireless terminal

The invention claimed is: 1. An antenna connected to a conductive member provided with a wireless-section circuit, comprising: a first antenna element which operates in a first frequency band; a second antenna element which operates in a second frequency band that is higher than the first frequency band and which is shorter than the first antenna element; and a third antenna element which operates in a third frequency band that is higher than the second frequency band and which is shorter than the second antenna element, the first, second, and third antenna elements including (i) first, second, and third connecting ends via which the first, second, and third antenna elements are connected to the wireless-section circuit, respectively, (ii) first, second, and third apical ends opposite the first, second, and third connecting ends, respectively, and (iii) first, second, and third apical-end regions including the first, second, and third apical ends, respectively, the first, second, and third connecting ends are placed in an area and proximate to each other, the first, second, and third antenna elements being arranged in this order with increasing distances from a place that is close to the conductive member, the conductive member blocking radiation from the antenna, the first, second, and third apical ends being not covered with any other one of the antenna elements as seen from a side opposite to a side on which the conductive member is placed, the area in which the first, second, and third connecting ends being each placed in a position that is closer to the third apical end than to the first apical end. 2. The antenna as set forth in claim 1 , wherein the first, second, and third apical ends are placed farthest in the antenna from the conductive member. 3. The antenna as set forth in claim 1 , wherein the first, second, and third apical ends are not covered with any other one of the antenna elements as seen (i) from a side on which the first, second, and third apical ends are placed in an antenna placement region in which the antenna is placed toward (ii) the conductive member. 4. The antenna as set forth in claim 1 , further comprising a first wire and a second wire via which the antenna is connected to the wireless-section circuit, wherein: the first wire is connected to the first and third antenna elements; and the second wire is connected to the second antenna element. 5. The antenna as set forth in claim 4 , wherein the first wire is provided with a parallel resonant circuit for matching the first and third antenna elements, the parallel resonant circuit being parallel to the first wire. 6. An antenna comprising: a first antenna element which operates in a first frequency band; a second antenna element which operates in a second frequency band that is higher than the first frequency band and which is shorter than the first antenna element; and a third antenna element which operates in a third frequency band that is higher than the second frequency band and which is shorter than the second antenna element, the first, second, and third antenna elements including (i) first, second, and third connecting ends via which the first, second, and third antenna elements are connected to a wireless-section circuit, respectively, (ii) first, second, and third apical ends opposite the first, second, and third connecting ends, respectively, and (iii) first, second, and third apical-end regions including the first, second, and third apical ends, respectively, the first, second, and third connecting ends being each placed in a position that is closer to the third apical end than to the first apical end, the second antenna element being placed between the first antenna element and the third antenna element, or the first antenna element being placed between the second antenna element and the third antenna element, said antenna further comprising a first wire and a second wire via which the antenna is connected to the wireless-section circuit, the first wire being connected to the first and third antenna elements, the second wire being connected to the second antenna element, the first wire being provided with a parallel resonant circuit for matching the first and third antenna elements, the parallel resonant circuit being parallel to the first wire, the parallel resonant circuit having its resonant frequency in the third frequency band. 7. The antenna as set forth in claim 4 , wherein at least any one of (i) the first antenna element, (ii) the third antenna element, and (iii) the first wire includes frequency control means for increasing an input impedance in the second frequency band as seen from an input side of the first and third antenna elements. 8. The antenna as set forth in claim 4 , wherein the first connecting end and the third connecting end are merged into one. 9. The antenna as set forth in claim 4 , wherein the first wire has a branch point at which the first wire divides into two wires one of which is connected to the first connecting end and the other one of which is connected to the third connecting end. 10. The antenna as set forth in claim 1 , wherein the first, second, and third apical-end regions are each placed at a certain end of an antenna placement region in which the antenna is placed. 11. The antenna as set forth in claim 1 , wherein a shadow of the second antenna element as projected onto a certain plane is interposed between shadows of the first and third antenna elements and as projected onto that plane. 12. The antenna as set forth in claim 1 , wherein the first, second, and third antenna elements are formed on an identical antenna base. 13. A portable wireless terminal comprising: an antenna as set forth in claim 1 ; and the wireless-section circuit, the first, second, and third antenna elements being each connected to the wireless-section circuit. 14. The portable wireless terminal as set forth in claim 13 , further comprising a housing which houses the antenna, wherein the first, second, and third apical-end regions are placed at an outermost side within the housing. 15. An antenna connected to a conductive member provided with a wireless-section circuit, comprising: a first antenna element which operates in a first frequency band; a second antenna element which operates in a second frequency band that is higher than the first frequency band and which is shorter than the first antenna element; and a third antenna element which operates in a third frequency band that is higher than the second frequency band and which is shorter than the second antenna element, the first, second, and third antenna elements including (i) first, second, and third connecting ends via which the first, second, and third antenna elements are connected to the wireless-section circuit, respectively, (ii) first, second, and third apical ends opposite the first, second, and third connecting ends, respectively, and (iii) first, second, and third apical-end regions including the first, second, and third apical ends, respectively, the first, second, and third apical ends being each placed at a certain end of an antenna placement region in which the antenna is placed, the first, second, and third connecting ends are placed in an area and proximate to each other, the first, second, and third apical ends being placed farthest in the antenna from the conductive member, the conductive member blocking radiation from the antenna, the first, second, and third apical ends being not covered with any other one of the antenna elements as seen from a side opposite to a side on which the conductive member