KR200397908Y1 - multistage antennas for movable communication with middle elastic wire platform - Google Patents

Abstract

The present invention provides an elastic wire end in the middle to prevent the possibility of deformation or damage caused by external force. It relates to a multi-stage antenna designed to have.

In general, as shown in FIG. 1, a conventional terminal multi-stage antenna uses a multi-stage antenna that can be sequentially stretched using a plurality of tubes having different diameters in order to secure the length required for transmission and reception on the terminal case. When the length is long, such as a broadcast receiving antenna, there is a problem that the antenna is bent or bent due to an unexpected external force and thus the antenna function is lost.

Therefore, the present invention has been devised to solve the above problems, and as shown in Figs. 4 and 5, the antenna rod can be pulled out when not in use and the antenna rod can be pushed in when not in use. The purpose of the present invention is to provide a multi-stage antenna that can greatly reduce the risk of damage to the antenna by installing an elastic wire end made of elastic wire having excellent restoring force in the middle.

Description

Multi-stage antennas for movable communication with middle elastic wire platform}

The present invention provides an elastic wire end in the middle to prevent the possibility of deformation or damage caused by external force. It relates to a multi-stage antenna designed to have.

In general, the terminal multi-stage antenna is a multi-stage antenna that can be sequentially stretched by using a plurality of tubes of different diameters in order to secure the length required for transmission and reception on the terminal case, as shown in Figures 1, 2 and 3 However, when the antenna is long, such as an antenna for terrestrial DMB broadcasting, a large moment is acted on by an unexpected external force, causing the antenna to bend or bent, thus losing antenna function.

Therefore, the present invention has been devised to solve the above problems, and as shown in Figs. 4 and 5, the antenna rod can be pulled out when not in use and the antenna rod can be pushed in when not in use. The technical problem is to provide a multi-stage antenna that can significantly reduce the risk of damage to the antenna by installing an elastic wire end made of elastic wire with excellent restoring force in the middle to enable deformation by an external force in the middle.

The multi-stage antenna for a mobile communication terminal having an intermediate elastic wire end according to the present invention is an elastic wire 12 mounted at both ends of the latch 10, which is provided with a cylindrical convex spring 8 having a middle convex; Upper and lower antenna tubes 6 formed in a hollow to move the elastic wire 12 in a longitudinal direction; The antenna tube 6 includes an outer antenna tube 9 in which the middle convex cylindrical convex spring 8 installed at one end thereof is inscribed. The antenna tube 6 and the external antenna tube 9 are connected as shown in FIG. 7, and when connected sequentially in this connection method, a multistage antenna having multiple stages is formed.

Hereinafter, an embodiment of a multi-stage antenna for a mobile communication terminal having an intermediate elastic wire terminal according to the present invention will be described in detail with reference to the accompanying drawings of FIG. 2.

In the conventional case, the sequential multi-stage antennas (2, 2 ') are inscribed as shown in FIG. 7 by using a plurality of antenna tubes of different diameters so as to be sequentially inserted into each other as shown in FIGS. It is constructed and is made to be stretchable. Since the conventional multi-stage antenna can not expect elastic deformation against external force, the antenna has a long length, causing the problem of bending or bending beyond the limit of elastic deformation for an unexpected external force. In some cases, only the last stage may be made of elastic wire, but this situation may not be expected to have a great effect. The multi-stage antenna for the mobile communication terminal having the middle elastic wire end of the present invention is disposed in the upper and lower stages of the conventional multistage antenna rod 14 and the lower multistage antenna rod 13 with the elastic wire end in the middle. It can be summarized as one.

 As one embodiment of a multi-stage antenna for a mobile communication terminal having an intermediate elastic wire end according to the present invention, a multi-stage antenna having a shape that is embedded in a terminal is convex cylindrical convex spring 8 as shown in FIGS. Elastic wires 12 having both ends of which the clamps 10 are installed; Upper and lower antenna tubes 6 formed in a hollow to move the elastic wire 12 in a longitudinal direction; Upper and lower outer antenna tubes 9 in which the middle convex cylindrical convex spring 8 installed at one end of the antenna tube 6 is inscribed; A bushing (3) provided with a cylindrical concave spring for guiding and holding the lower outer antenna tube (9); It consists of an antenna cap (4) mounted to one end of the upper outer antenna tube (9). It is noted that the elastic wire 12 may use a spring steel wire having excellent restoring force or a titanium alloy wire having excellent elastic deformation characteristics. The antenna tube 6 and the outer antenna tube 9 respectively form an upper multistage antenna rod 14 and a lower multistage antenna rod 13 and are connected as shown in FIG. A multistage antenna with four stages is formed. However, the dimensions of the cylindrical convex spring 8 and the clamp 6 used are different depending on the diameter of the antenna tube at each end, and are not shown separately in the drawings. As is known in the structure used in conventional rod antennas or terminal antennas, the cylindrical convex spring 8 and the latch 10 are mounted on the antenna tube 6 and inscribed in the external antenna tube 9. The upper end of the antenna tube (9) is processed so that the brace (10) installed on the lower end of the antenna tube (6) to be inscribed so as not to be caught. In addition, the friction force between the antenna tube (6) and the cylindrical convex spring (8) in contact with each other at each end is to be able to fold sequentially. That is, the frictional force at the connecting portion connected to the elastic wire 12 is the smallest, and the frictional force at each end is adjusted to be large so as to operate sequentially when the antenna is pulled out or folded. One side of the outside of the bushing (3) is formed with a screw fastening portion 11 is fastened to the terminal to be fed. Figure 5 is another embodiment of a multi-stage antenna for a mobile communication terminal having an intermediate elastic wire end according to the present invention as a multi-stage antenna that is plugged into the outside of the terminal as described above with an elastic wire end in the middle An antenna cap (4) is mounted on the upper multistage antenna rod (14), which is composed of two stages, and a coaxial connector (17) to be inserted into the terminal at the bottom of the multistage antenna rod (13), which consists of four stages. Indicates processed. This has the same technical idea in that it has an intermediate elastic wire end as in the exemplary embodiment of the terminal built-in multi-stage antenna described above, and has a plurality of antenna tubes connected to the upper and lower sides based on the intermediate elastic wire end. The upper multi-stage antenna rods (14) rhk lower antenna rods (13) can increase or decrease the number of stages depending on the application, and the shape or shape of the antenna cap (4) mounted on the upper bushing (3) and the coaxial connector (17). ) Can be arbitrarily configured according to the application object. For reference, as shown in the right side of Figs. 4 and 5 shows the state when the antenna in each embodiment of the multi-stage antenna (5) for a mobile communication terminal having an intermediate elastic wire end according to the present invention.

Looking at the operation effect of the present invention configured as described above, as in the conventional multi-stage antenna (2,2 ') can be pulled out or folded in sequence, not only easy to carry and store, but also in the middle elastic wire end when an external force is applied The elastic deformation can be made to minimize the possibility that the antenna tube can be bent or bent and to increase the diameter of the antenna tube on the top of the antenna, thereby improving the antenna characteristics. 8 is a comparison of the elastic deformation of the antenna when an external force is applied. In the case of a conventional multi-stage antenna composed only of the elastic wire as shown in (a), the elastic deformation is performed only near the antenna cap so that it is connected to the terminal. In the case of a multistage antenna having an intermediate elastic wire end as shown in (b), since the elastic deformation is made in the elastic wire in the middle, the moor in the part connected to the terminal than the conventional multistage antenna Less damage occurs to reduce antenna damage. If the antenna length is the same, the length of each end is shortened to accommodate relatively large moments, thereby minimizing antenna damage due to external force.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It is evident to those who have knowledge of.

As described above, according to the present invention, the antenna tube can be sequentially unplugged or folded, which is easy to carry and store, and also allows the antenna tube to bend or bend when the external elastic force is applied so that elastic deformation is performed at the intermediate elastic wire end. It can minimize the possession and increase the diameter of the antenna tube on the top of the antenna has the effect of improving the antenna characteristics.

1 is a conventional sequential multi-stage antenna installation diagram

   (a) is an installation diagram of a multi-stage antenna used by plugging in from the outside

   (b) is an installation diagram of a multi-stage antenna built into the terminal

 Figure 2 is an external view of a conventional built-in multi-stage antenna

 Figure 3 is an external view of a conventional external insertion type multi-stage antenna

 Figure 4 is an external view of the built-in multi-stage antenna as an embodiment of a multi-stage antenna according to the present invention

 5 is an external view of an external insertion type multistage antenna according to another embodiment of the multistage antenna according to the present invention;

 Figure 6 is a cross-sectional view of the bushing portion as an embodiment of a multi-stage antenna according to the present invention

 7 is a structure diagram of a single connection part as an embodiment of a multi-stage antenna according to the present invention;

 Figure 8 is a structure diagram of the elastic wire end connection as an embodiment of a multi-stage antenna according to the present invention

 9 is a diagram illustrating a modified state of a multistage antenna according to an embodiment of the present invention and a conventional multistage antenna

   (a) is an illustration of a conventional multi-stage antenna deformation state

   (b) is an illustration of a modified state of an embodiment of a multi-stage antenna according to the present invention

       * Explanation of symbols for the main parts of the drawings

          1,1 ': terminal 2,2': sequential multistage antenna

          3: bushing 4: antenna cap

          5: elastic wire type multi-stage antenna 6: antenna tube

          7: Cylindrical concave spring 8: Cylindrical convex spring

         9,9 ': External antenna tube 10: Brace

         11: screw connection 12: elastic wire

         13: Lower multi stage antenna rod 14: Upper multi stage antenna rod

         15: single connection 16: bushing

         17: Coaxial Connector

Claims (4)

In the multi-stage antenna for mobile communication terminal composed of multi-stage An elastic wire 12 mounted at both ends thereof with a latch 10 having an intermediate convex cylindrical convex spring 8 installed thereon; Upper and lower antenna tubes 6 formed in a hollow to move the elastic wire 12 in a longitudinal direction; Multi-stage antenna for mobile communication terminal, characterized in that consisting of one or more lower and upper multi-stage antenna rods (13, 14) is connected to the upper and lower antenna tube (6), respectively. The method of claim 1  An upper multistage antenna rod having two or more stages except for an elastic wire stage; Multi-stage antenna for mobile communication terminal, characterized in that it has a lower multi-stage antenna rod having two or more stages except the elastic wire stage The method of claim 1  Multi-stage antenna for mobile communication terminal, characterized in that the diameter of the elastic wire has a range of 0.5mm to 1.5mm The method of claim 2  Multi-stage antenna for mobile communication terminal, characterized in that the diameter of the elastic wire has a range of 0.5mm to 1.5mm