JP6045353B2 - Antenna and portable terminal - Google Patents

Description

  The present invention relates to an antenna and a mobile terminal including the antenna. In particular, the present invention relates to an antenna that stores a hinge part in a base to increase the length when extended and reduce the length when stored, and a portable terminal including the antenna.

  Conventionally, a mobile terminal represented by a mobile phone is equipped with an extendable antenna. Due to subsequent technological advances, frequency band antennas used in mobile phones are often mounted inside the casings of mobile terminals.

  On the other hand, with the start of digital terrestrial television broadcasting, one-segment broadcasting for mobile terminals has been started (for example, see Patent Document 1). Since the frequency used for terrestrial digital television broadcasting is different from the frequency used for mobile phones, mobile phones are again equipped with extendable antennas.

JP 2009-272863 A

  Along with miniaturization of mobile terminals, antennas equipped with them are required to be as small as possible when stored. Accordingly, an object of the present invention is to provide an antenna whose length at the time of extension is further increased by reducing the size at the time of storage and a mobile terminal including the antenna.

  As one embodiment of the present invention, an antenna having two or more elements, a hinge portion, and a base is provided. Here, in the two or more elements, one of the two adjacent elements can be stored inside the other. The hinge part has a hinge connected to the element at the end of two or more elements at the tip. The base can accommodate the hinge at the tip of the hinge portion inside.

  Moreover, as one embodiment of the present invention, a hinge part having two or more elements that can be accommodated in one of two adjacent elements and a hinge connected to an element at an end of the two or more elements at the tip And an antenna having a base that can accommodate the hinge at the tip of the hinge portion inside and a cylindrical holder in which the two or more elements, the hinge portion and the base can move inside, fix the holder to the housing There is provided a portable terminal characterized in that it has a locking means that is attached and prevents the base from coming out of the holder when the antenna is extended.

  ADVANTAGE OF THE INVENTION According to this invention, while reducing the magnitude | size at the time of accommodation, the antenna which can enlarge the length at the time of expansion | extension, and a portable terminal provided with the antenna are provided.

It is a perspective view of a portable terminal provided with the antenna which concerns on one Embodiment of this invention. It is a perspective view of a portable terminal provided with the antenna which concerns on one Embodiment of this invention. It is a figure for demonstrating the structure and accommodation of the antenna which concern on one Embodiment of this invention. It is an example figure of the spring which can be used for the antenna which concerns on one Embodiment of this invention. It is a figure which shows the structure of the antenna which concerns on one Embodiment of this invention. It is a figure which shows the structure of the antenna which concerns on one Embodiment of this invention. It is a figure which shows the structure of the antenna which concerns on one Embodiment of this invention. It is an example of the form which implement | achieves latching, without using a spring in the antenna which concerns on one Embodiment of this invention. It is a figure which shows one Example and comparative example of this invention.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. The present invention is not limited to the following description, and can be implemented with various modifications.

  FIG. 1 is a perspective view of a portable terminal including an antenna according to an embodiment of the present invention. A hole 3 for mounting an antenna is provided on the upper surface 2 of the portable terminal 1. The antenna includes a base 11, a hinge part 12, a first element 13, a second element 14, and a tip part 100. In addition, the antenna is attached through a holder 15 fixed to the casing of the mobile terminal 1.

  The base 11, the hinge part 12, the first element 13, and the second element 14 are made of a conductor such as metal and are connected to the RF circuit in the mobile terminal 1. For this purpose, the antenna can be connected to the RF circuit via the holder 15.

  The holder 15 has a cylindrical shape, and the base 11 can move by sliding in the axial direction on the inside thereof. Moreover, the base 11 also has a cylindrical shape, and the hinge part 12 can slide and move inside thereof. Further, the hinge that connects the first element 13 that is the tip of the hinge portion 12 so as to be bendable can be housed inside the base 11. Further, the base 11 may be capable of storing the entire hinge portion 12.

  As described above, the hinge for connecting the first element 13 so as to be bent is disposed at the tip of the hinge portion 12. Any structure can be used as the structure of the hinge. However, the hinge needs to have a shape that allows the hinge to be housed inside the base 11. For this reason, the outer diameter of the hinge needs to be smaller than the diameter of the upper opening of the base 11. In FIG. 1, the hinge has two holding pieces disposed at the tip of the hinge portion 12, and the rotating member piece at the lower end of the first element 13 is inserted between the holding pieces, and penetrates the holding piece and the rotating member piece. The connecting pin to be inserted is inserted. Thereby, the 1st element 13 can rotate centering | focusing on a connection pin in the plane pinched by the clamping piece. Moreover, the hinge part 12 and / or the base 11 can be rotated by using the axis as a rotation axis. As described above, the first element 13 can be directed in a desired direction above the upper surface 2.

  At least one of the first element 13 and the second element 14 has a cylindrical shape, and the other can be accommodated by sliding the other inside. In FIG. 1, at least the second element 14 has a cylindrical shape, and the first element 13 can be accommodated therein. The first element 13 can also have a cylindrical shape, but in order to avoid permanent deformation due to an external force applied to the antenna, the first element 13 is formed of a core wire formed of a superelastic NT alloy or the like. It may be.

  In FIG. 1, the antenna is shown as being composed of two elements, the first element 13 and the second element 14, but the antenna may be composed of three or more elements. Further, the first element 13 may store the second element 14.

  The tip portion 100 is preferably made of the same material as that of the upper surface 2, and preferably has a shape of a portion cut out from the upper surface 2 to form the hole 3. Thereby, when the antenna is housed, the upper surface 2 can be a smooth surface.

  When the antenna is stored, in FIG. 1, the first element 13 is stored inside the second element 14, and the hinge portion 12 is stored inside the base 11. Then, the second element 14 storing the first element 13 and the base 11 storing the hinge portion 12 slide inside the holder 15 and are stored inside the portable terminal 1. As a result, the external appearance of the mobile terminal 1 is as shown in FIG.

  In the present embodiment, since the first element 13 is accommodated in the second element 14 and the hinge portion 12 is accommodated in the base 11, the length when the antenna is accommodated in the mobile terminal 1 can be reduced. In addition, the length of the hinge portion 12 and the base 11 that are reduced by the hinge portion 12 being housed in the base 11 can be added to the length of the second element 14. In addition, since the first element 13 is accommodated in the second element 14, the first element 13 can be added to the length of the hinge portion 12 and the base 11. Therefore, it is possible to lengthen the length when the antenna is extended (the length in the axial direction) by twice as long as the lengths of the hinge portion 12 and the base 11 are reduced. In FIG. 1, the antenna has a two-stage configuration of the first element 13 and the second element 14, but by setting the number of stages to a greater number, the length of the antenna when extended is the hinge portion 12 and the base 11. It is possible to increase the value by the number of stages corresponding to the decrease in the length of.

  FIG. 3 is a diagram illustrating the configuration and expansion and contraction of the antenna holder 15, the base 11, the hinge portion, the first element 13, and the second element 14.

  FIG. 3A shows a state in which the antenna according to this embodiment is extended to the maximum extent. FIG. 3A corresponds to the state of FIG. As described above, the antenna includes the base 11, the hinge portion 12, the first element 13, and the second element 14. The antenna also has a holder 15. In FIG. 3, the tip 100 shown in FIGS. 1 and 2 is omitted.

  The holder 15 is fixed to the casing of the mobile terminal as described above. The holder 15 has a cylindrical shape, in which the base 11 slides in the axial direction and can move in the direction of the opening 152 of the holder. Further, in order to prevent the base 11 from coming out of the opening on the opposite side of the opening 152 from the holder 15, a locking means is provided. In FIG. 3A, the locking means has a flange 113 formed around the bottom surface 114 of the base 11, and a protrusion 151 is formed in the opening opposite to the opening 152, and the diameter thereof is smaller than that of the flange 113. It is formed by. The locking means is not limited to such a configuration. For example, the inner diameter of the holder 15 decreases from the opening 152 toward the opening on the opposite side, and the outer shape of the base 11 is It may be smaller as it goes from the bottom surface 114 toward the opening 115.

  The space 153 between the projecting portion 151 and the flange 113 is preferably provided with a means for generating a frictional force between the outer surface of the base 11 and the inner surface of the holder 15. Thereby, the extended state of the antenna can be maintained. As means for generating this frictional force, for example, a spring (elastic body) shown in FIG. 4 can be used. In FIG. 4, the spring has openings 401 and 402, and the openings 401 and 402 are connected by leaf springs 403, 404 and 405 that are slightly curved outward from the spring. For example, the base 11 is inserted from the opening portion 402 from the opening 115 side, the spring is moved toward the flange 113, the base 11 is further inserted from the opening 152 of the holder 15, and the spring is disposed in the space 153. Since the leaf springs 403, 404, and 405 are slightly curved toward the outside of the spring, they can be brought into contact with the inside of the holder 15 and a frictional force can be generated.

  As described above, the base 11 has a cylindrical shape, and the hinge portion 12 is slidable on the inside thereof. In addition, the base 11 is configured such that a hinge that connects the first element 13, which is the tip of the hinge portion 12, in a bendable manner can be accommodated in the base 11. Further, the base 11 may be capable of storing the entire hinge portion 12.

  Moreover, the 2nd latching means for preventing the hinge part 12 from slipping out from the opening 115 of the base 11 is provided. In FIG. 3A, the second locking means is configured by forming a flange 121 on the hinge portion 12 and forming a protruding portion 111 on the opening 115 of the base 11 in the same manner as the locking means described above. You can do it. In the space 112 between the flange 121 and the protruding portion 111, a spring or the like as shown in FIG. 4 is arranged to generate a frictional force, and the hinge portion 12 is fixed to the base 11 when the antenna is extended. be able to.

  The hinge formed at the tip of the hinge part sandwiches the rotating member piece of the first element 13 by the sandwiching piece 122 and the sandwiching piece opposed thereto, and the connecting pin is inserted therethrough.

  In FIG. 3A, the first element 13 can be stored inside the second element 14. However, since the hinge portion 12 can be housed in the base 11, the rotating member piece 131 of the first element 13 need not be housed. Further, third locking means for preventing the first element 13 from coming out of the second element 14 is provided. Similarly to the above-described locking means, the third locking means is configured by forming a flange 132 at the tip of the first element 13 and forming a protrusion 141 at the opening of the second element 14. Can do. In the space 142 between the flange 132 and the projecting portion 141, a spring or the like as shown in FIG. 4 is arranged to generate a frictional force, and the second element 14 is moved relative to the first element 13 when the antenna is extended. Can be fixed.

  FIG. 3B shows a state in which the length of the antenna is reduced by housing the hinge portion 12 in the base 11. In FIG. 3A, when the length in the axial direction of the portion where the hinge portion 12 protrudes from the base 11 is L1, the length of the antenna in FIG. 3B is longer than the length in FIG. It becomes smaller by L1. The base 11 may store the tip portion of the first element 13. In this case, the length of the antenna in FIG. In addition, since the base 11 houses a part of the first element 13, it is possible to prevent the tip portion of the first element 13 from being damaged when a force is applied in a direction perpendicular to the antenna axis. .

  FIG. 3C shows a state in which the length of the antenna is further reduced by housing the first element 13 in the second element 14. In FIG. 3A, the length in the axial direction of the portion where the first element 13 protrudes from the second element 14, in other words, the portion where the first element 13 protrudes from the base 11 in FIG. Assuming L2, the length of the antenna in FIG. 3C is smaller than the length in FIG. 3B by L2.

  FIG. 3D shows a state in which the base 11 is moved to the opening 152 on the opposite side of the holder 15 while maintaining the state of FIG. Here, if the maximum outer diameter of the first element 13 and the second element 14 is smaller than the diameter of the opening opposite to the opening 152 of the holder 15, the tip 143 of the second element 14 housing the first element 13 is used as the holder. It is possible to move to the opening on the opposite side of the 15 openings 152. This state is shown in FIG. This state corresponds to FIG.

Here, assuming that the length of the second element 14 in the axial direction is L0 and the length of the base 11 in the axial direction is B, the length of the antenna in the axial direction when the antenna is extended (in this case, the base 11 From the opening 114 of the second element 14 to the tip 143 of the second element 14) from FIG.
L0 + L2 + L1 + B (1)
It becomes. On the other hand, referring to FIG. 3 (e), the length of the antenna is reduced, and the length in the axial direction of the antenna when it is housed inside the mobile terminal 1 (from the opening 114 of the base 11 to the second element 14. The length to the tip 143) is
L0 + B (2)
It becomes.

On the other hand, unlike the antenna of the present embodiment, when considering an antenna in which the hinge portion 12 cannot be housed inside the base (referred to as an “antenna of comparative form”), the length of such an antenna is reduced and the mobile terminal 1 is placed inside the mobile terminal 1. The minimum axial length when stowed is
L0 + L1 + B (3)
It becomes.

  In general, the length of the antenna in the axial direction when the length of the antenna is shortened and housed inside the mobile terminal 1 is determined by the specifications of the mobile terminal 1 and can be considered as a constant. Then, comparing Equation (2) and Equation (3), the length L0 of the second element 14 of the antenna of this embodiment is a value obtained by adding the value of L1 to the antenna of the comparative embodiment. Can do.

  Further, since the first element 13 can be accommodated inside the second element 14, the maximum value of the length L2 of the first element 13 can be L0. Thus, in the antenna of the present embodiment, the length of the first element 13 can be increased by L1 as compared with the antenna of the comparative embodiment. Therefore, the length when the antenna of this embodiment is extended can be made 2 * L1 larger than the length when the antenna of the comparative embodiment is extended.

  Up to now, the antenna having the two elements of the first element 13 and the second element 14 has been considered. However, when three or more multistage antennas are considered, the length when the antenna of the present embodiment is extended is as follows. It becomes possible to make the number of stages of L1 larger than the length when the comparative antenna is extended. Therefore, according to the antenna of this embodiment, it has the effect of increasing the length when it is extended while reducing the length when stored in the mobile terminal 1.

  Although FIG. 3 shows a state in which the antenna is retracted to accommodate the antenna, the method of contraction when the antenna is accommodated is not limited to the order shown in FIG. By adjusting the magnitude of the frictional force in the locking means and the third locking means, the order can be changed to an arbitrary order.

  Further, a flange can be disposed on the hinge portion 12 side of the first element 13. FIG. 5 shows such an antenna. A flange 16 is provided on the hinge portion 12 side of the first element 13. When the length of the antenna is shortened, the flange 16 is in contact with the opening on the opposite side of the reference numeral 143 of the second element 14 so that the tip of the antenna is pushed with a finger or the like so that the antenna can be accommodated smoothly. be able to. Further, the second element 14 can be regulated and prevented from storing the hinge, and the antenna can be stored more smoothly.

  When the antenna is housed, the base 11 moves inside the holder 15 after the first element 13 is housed in the second element 14 and the hinge portion 12 is housed in the base 11. It is preferable to be housed in the casing of the portable terminal 1. For example, if the base 11 moves inside the holder 15 when the hinge portion 12 is not accommodated in the base 11, the bottom surface 114 of the base 11 may collide with a component inside the housing, possibly damaging the component. It is.

  In addition, as shown in FIG. 5, when a flange is disposed on the hinge portion 12 side of the first element 13, it is preferable that the flange is also accommodated in the base 11. This is because the possibility of damage to the hinge portion 12 may increase. That is, as shown in FIG. 5A, when the flange 16 is not housed in the base 11, the hinge portion 12 is housed in the base 11, but the flange 16 is not housed in the holder 15, and the flange 16 is When in contact with the base 11, the force F is applied to the second element 14 (and the first element 13, the element 13-1, and the element 13-2 accommodated therein) perpendicular to the axis as shown in FIG. 5A. When applied, the reference numeral 16-1 where the flange 16 is in contact with the base 11 becomes a fulcrum, a large force is applied to the flange 16 on the hinge portion 12 side of the first element 13, and the breakage is indicated by reference numeral 16-2. There is a possibility that it will occur in some places.

  5A, element 13-1 is an element that can accommodate the first element, element 13-2 is an element that can accommodate element 13-1, and element that can be accommodated in second element 14 It is.

  In order to solve this problem, it is conceivable to adopt a configuration in which the flange is also accommodated in the base 11 as described above. An example of this configuration is shown in FIG. 5B. Comparing FIG. 5A and FIG. 5B, in FIG. 5B, the length of the base 11 is larger than that shown in FIG. 5A, and the base 11 can accommodate the flange 16. In FIG. 5B, the tip of the base 11 can be in contact with the second element 14 at a position 16-3. The tips of the elements 13, 13-1 and 13-2 housed in the second element are housed in the base 11 and are in contact with the flange 16. In the state shown in FIG. 5B, even if the force F is applied to the second element 14 (and the first element 13, the element 13-1, and the element 13-2 accommodated therein) perpendicularly to the axis, the fulcrum is located at the position 16−. 3, the force is distributed to the first element 13, the element 13-1, and the element 13-2, so that a large force is prevented from being applied to the hinge portion 12 side of the first element 13, and the occurrence of breakage is avoided. can do.

  In FIG. 5B, the tips of the first element 13, element 13-1, and element 13-2 are housed in the base 11, and the tip of the second element 14 is not housed in the base 11. However, the present invention is limited to this. The tip of the 2nd element 14 and element 13-2 is not stored in base 11, and it can be set as arbitrary composition. Moreover, although four elements are shown, it is not limited to four.

  When the antenna is housed, the first element 13 is housed in the second element 14 and the hinge portion 12 is housed in the base 11, and then the base 11 moves inside the holder 15 to be carried. In order to be accommodated in the casing of the terminal 1, in particular, the frictional force by the second locking means (for preventing the hinge portion 12 from coming out of the opening 115 of the base 11) is locked. It is preferable to make it smaller than the frictional force due to (to prevent the base 11 from coming out of the opening on the opposite side of the opening 152 from the holder 15). However, when the frictional force of the second locking means is set to be small in this way, when the direction of the first element 13 is changed in the hinge in a state where the antenna is extended, the hinge portion 12 is fixed to the base 11. Therefore, the portion of the first element 13 cannot be fixed.

  Therefore, it is preferable that a means for restricting the hinge portion 12 from rotating relative to the base 11 around the axis (hereinafter referred to as “rotation restricting means”) is provided. For example, when the hinge portion 12 is cut along a plane perpendicular to the axis, the cut surface is not circular (for example, an ellipse, an oval, or a polygon). When the substrate is cut along a plane perpendicular to the surface, the cut surface inside may be a non-circular shape. Further, these cut surfaces do not need to be rotationally symmetric like an ellipse, an oval shape, or a regular polygon, and a slit or groove extending in the axial direction is formed on the side surface of the base 11, and a hinge is provided in the slit or groove. The protrusion formed on the portion 12 may be fitted so that the hinge portion 12 does not rotate relative to the base 11 around the axis.

  As described above, since the rotation restricting means is provided in the antenna, it is possible to prevent damage to the components inside the housing and to easily adjust the frictional force between the locking means and the second locking means. Is obtained.

  As shown in FIG. 1, when the upper surface 2 of the housing 1 is a curved surface, the top end portion 100 of the antenna is matched with the curved surface of the top surface 2, so that the top surface of the front end portion 100 is inclined. . As a result, if the oblique upper surface is pushed to accommodate the antenna after the antenna is extended, the force is shifted from the axial direction of the antenna, and the antenna is bent by the hinge. For this reason, conventionally, there has been a problem that it is difficult to smoothly store the antenna.

  However, the frictional force is adjusted by the locking means and the second locking means as described above, and the hinge of the hinge portion 12 can be stored inside the base 11 at the initial stage of storage. The antenna can be accommodated smoothly by restricting the bending of the antenna at the hinge.

  In addition, in the above description, although the form using a spring was mainly demonstrated about the latching means, the 2nd latching means, and the 3rd latching means, this invention is not limited to such a form. . For example, as shown in FIG. 6 as a form of the second locking means as a cross-sectional view of the base 11 and the hinge part 12, the inner diameter of the part 61 at the tip of the base 11 is smaller than the other part. Also good. In other words, the portion 61 may be squeezed inside. Thereby, the frictional force may be formed by the portion where the inner diameter is formed small hitting the hinge portion 12 strongly. Thereby, use of a spring can be omitted and the number of parts can be reduced. Such a form is not limited to the realization of the second locking means, but can also be applied to the locking means and the third locking means. However, as described above, it is preferable to apply the frictional force generated by the second locking unit to the second locking unit because it is preferable to reduce the frictional force generated by the locking unit.

Comparison between the present embodiment and the comparative embodiment FIG. 7 shows the dimensions of the antenna according to the present embodiment and the comparative embodiment at the time of extension and at the time of storage.

  FIG. 7A shows dimensions when the antenna according to the present embodiment is extended and stored. In the antenna shown in FIG. 7A, the lengths of the first element, the second element, the third element, the fourth element, and the fifth element are 27 mm, 23 mm, 24 mm, 24 mm, and 27 mm, respectively. The maximum length in the axial direction was set to 120.5 mm and the minimum length was set to 36 mm when stored.

  On the other hand, FIG.7 (b) shows the dimension at the time of expansion | extension of the example of the antenna of the above-mentioned comparative form in which a hinge part is not accommodated in a base, and the time of accommodation. In FIG. 7B, the length when stored is set to 36 mm, which is the same as the length when stored in FIG. Then, since the length of each element becomes shorter, the length at the time of extension is smaller than that in FIG. 7A and is shown to be 97 mm.

  On the other hand, FIG.7 (c) also shows the dimension at the time of expansion | extension of the example of the antenna of the above-mentioned comparative form in which a hinge part is not accommodated in a base, and the time of accommodation. In FIG.7 (c), the length at the time of expansion | extension was 120.5 mm which is the same as the length at the time of expansion | extension in Fig.7 (a). Then, it is shown that the length at the time of storage becomes larger than FIG. 7A and becomes 40.7 mm.

  DESCRIPTION OF SYMBOLS 11 ... Base, 12 ... Hinge part, 13 ... 1st element, 14 ... 2nd element, 15 ... Holder, 111 ... Projection part, 112 ... Space, 113 ... Flange, 114 ... Bottom, 115 ... Opening, 121 ... Flange, 122: clamping piece, 131: rotating member piece, 132: flange, 141 ... projecting portion, 142 ... space, 143 ... tip, 151 ... projecting portion, 152 ... opening, 153 ... space

Claims (10)

An antenna,
Two or more elements in which one of the two adjacent elements can be stored inside the other;
A hinge part having a hinge connected to an element at an end of the two or more elements at a tip;
A base capable of accommodating the hinge at the tip of the hinge portion inside;
Rotation restricting means for restricting rotation of the hinge portion relative to the base around the base axis;
A cylindrical holder in which the two or more elements, the hinge portion and the base are movable;
Locking means for preventing the base from coming out of the holder when the antenna is extended. The element at the end of the two or more elements connected to the hinge has a flange that restricts other elements from accommodating the hinge inside.
The antenna according to claim 1.   An antenna,
  Two or more elements in which one of the two adjacent elements can be stored inside the other;
  A hinge part having a hinge connected to an element at an end of the two or more elements at a tip;
  A base capable of accommodating the hinge at the tip of the hinge portion inside;
Rotation restricting means for restricting rotation of the hinge portion relative to the base around the base axis;
Have
The element at the end of the two or more elements connected to the hinge has a flange that restricts other elements from accommodating the hinge inside.
antenna.   An antenna,
Two or more elements in which one of the two adjacent elements can be stored inside the other;
  A hinge part having a hinge connected to an element at an end of the two or more elements at a tip;
  A base capable of accommodating the hinge at the tip of the hinge portion inside;
  A cylindrical holder in which the two or more elements, the hinge portion and the base are movable;
  Locking means for preventing the base from coming out of the holder when the antenna is extended;
Have
  The element at the end of the two or more elements connected to the hinge has a flange that restricts other elements from accommodating the hinge inside.
antenna. The antenna according to claim 2, wherein the flange can be accommodated inside the base . The locking means includes a spring positioned between the base and the holder when the antenna is extended.
The antenna according to any one of claims 1, 2, and 4. The antenna according to any one of claims 1 to 6 , wherein the two or more elements are housed in one of the two adjacent elements inside the other, and the hinge at the tip of the hinge portion is the base. A minimum length of a portion exposed from the base of the antenna when accommodated inside the antenna,
An antenna to be compared, wherein two or more elements in which one of two adjacent elements can be accommodated inside the other, and a hinge part having a hinge connected to an element at an end of the two or more elements at the tip The second antenna when the two or more adjacent elements are housed in the other of the antennas to be compared in which the hinge part at the tip of the hinge part cannot be housed inside. The minimum length of the exposed portion of the base,
Are the same, and the number of the two or more elements of the antenna according to any one of claims 1 to 6 is the same as the number of the two or more elements of the antenna to be compared. The maximum length obtained by extending the antenna to be compared is greater than the maximum length obtained by extending the antenna according to any one of claims 1 to 6. It is a value obtained by subtracting a value obtained by multiplying the maximum value of the length of the hinge portion exposed from the base of the antenna according to any one of the two or more elements,
The antenna according to any one of claims 1 to 6, wherein: The entirety of the hinge portion can be accommodated in the base;
The antenna according to any one of claims 1 to 7. The base can accommodate a part of the elements at the ends of the two or more elements inside.
The antenna according to any one of claims 1 to 8. Two or more elements in which one of the two adjacent elements can be housed in the other, a hinge portion having a hinge connected to an element at an end portion of the two or more elements, and the tip of the hinge portion An antenna having a base that can accommodate the hinge inside, and the two or more elements, the hinge portion, and a cylindrical holder in which the base can move inside is mounted by fixing the holder to the housing. Locking means for preventing the base from coming out of the holder when the antenna is extended;
Rotation restricting means for restricting rotation of the hinge portion relative to the base around the base axis;
Mobile terminal having.

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