KR20120016865A - Multistage antenna and it's manufacturing method - Google Patents

Abstract

PURPOSE: A method for manufacturing a multistage antenna is provided to reduce a noise by integrating a sleeve made of metal materials with an elastic unit made of synthetic resin through an insert-molding. CONSTITUTION: A mold is designed by calculating the number of sleeves and the load value of an elastic unit(S1). A plurality of sleeves with each diameter is made(S2). A plurality of fixed grooves are formed in the sleeve(S3). The elastic unit is formed by insert injection molding(S4). A multistage antenna is assembled by combining the plurality of sleeves(S5).

Description

Multistage antenna and it's manufacturing method

The present invention relates to a multistage antenna and a method for manufacturing the antenna, in particular installed in a mobile phone or DMB (Digital Multimedia Broadcasting), and more particularly, to a multistage antenna to insert integrally by inserting the elastic part in the sleeve and a manufacturing method thereof. .

In general, an antenna for receiving a signal is essentially provided in a mobile phone or a DMB dedicated terminal. Telescope-type antennas widely used as such antennas are configured to be extended and used in multiple stages such as three stages and four stages. When the antennas are folded while the antennas are lengthened to increase the reception rate and maintain a good communication state, It is preferable that the length of the structure is as short as possible to reduce the size.

The conventional multi-stage antenna is configured such that a plurality of sleeves (1) and (2) can be inserted or withdrawn by sliding with each other, as shown in FIG. It is schematically shown that the sleeve 1 is inserted into the lower sleeve inner 2.

The upper inner circumferential surface of the sleeve (1) (2) is formed with a blocking portion (1a) (2a) having a diameter smaller than the inner diameter, the lower outer circumferential surface of the sleeve (1) (2) diameter larger than the outer diameter Locking jaws (1b) (2b) having a.

In addition, the elastic body 3 is coupled to the locking projection 1b formed on the upper sleeve 1, and the fixing ring 4 is firmly coupled to the upper side of the elastic body 3, and the upper sleeve configured as described above ( 1) is inserted inside the lower sleeve 2.

At this time, the blocking portion 2a formed on the lower sleeve 2 prevents the upper sleeve 1 from being drawn out and separated, and the elastic body 3 is smoothly moved by being in close contact with the inner circumferential surface of the lower sleeve 2. To help.

However, such a conventional multi-stage antenna is not only made of harmful materials such as beryl copper or phosphor bronze, but also molded separately by a press, so that the precision is reduced, so that the rubber hammer to match the load value according to the insertion and withdrawal between sleeves in the assembly process. There is a problem that a post-process is required to hit the coupling portion and the like.

The present invention is to solve the above problems, by inserting a sleeve made of a metal material and the elastic portion made of synthetic resin integrally by insert injection, not only environmentally friendly, but also smoother operation to reduce the noise multi-stage antenna and its The purpose is to provide a manufacturing method.

In addition, the present invention can provide a multi-stage antenna and a method for manufacturing the multi-stage antenna that can be mass-produced by reducing the number of parts and assembly process of the multi-stage antenna, as well as the load value can be designed accurately and accurately according to the shape of the elastic portion. have.

Multi-stage antenna according to the present invention is a multi-stage antenna is a plurality of sleeves having different diameters are coupled in the longitudinal direction and drawn out or inserted, the sleeve is formed with a plurality of fixing grooves, the fixing groove is an elastic portion made of synthetic resin insert It is characterized by being coupled by injection.

According to the multi-stage antenna according to the present invention and a method for manufacturing the same, the elastic part is made of a synthetic resin, not only environmentally friendly, but also has a smooth operation to reduce noise.

In addition, according to the shape of the elastic portion, the load value can be variously and accurately designed, the formation of the locking step can be omitted, there is an advantage that the mass production is possible by reducing the number of parts and assembly process of the multi-stage antenna.

1 is a cross-sectional view showing a conventional multi-stage antenna,
Figure 2a is a front view showing a first embodiment of a sleeve according to the present invention,
Figure 2b is a front view showing a state in which the elastic portion is coupled to the sleeve by the insert injection of the present invention,
Figure 3a is a front view showing a second embodiment of the sleeve according to the present invention,
Figure 3b is a front view showing a state in which the elastic portion is coupled to the sleeve of the present invention by insert injection,
Figure 4a is a perspective view showing a first embodiment of the elastic portion according to the present invention,
Figure 4b is a perspective view showing a second embodiment of the elastic portion according to the present invention,
Figure 4c is a perspective view showing a third embodiment of the elastic portion according to the present invention,
5 is a block diagram showing a manufacturing procedure of a multi-stage antenna according to the present invention;
Figure 6a is an exploded view showing another embodiment of the present invention,
Figure 6b is a coupling diagram showing another embodiment of the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the multi-stage antenna of the present invention, as shown in FIG. 2A, a plurality of sleeves 10 having different diameters are sequentially coupled in the longitudinal direction, and for this purpose, an outer side of the sleeve 10 is formed on an outer circumferential surface of the lower side of the sleeve 10. Hanging jaw (11) having a diameter larger than the diameter of is formed.

At this time, the catching jaw 11 is inserted into another sleeve 10 having a slightly larger diameter and serves as a stopper so as to be no longer pulled out.

In addition, the sleeve 10 of the present invention is formed with a fixing groove 12 at intervals with the locking step 11, the fixing groove 12 is a place where the raw material is inserted and fixed when performing the insert injection It is intended for a firm fixing, such fixing groove 12 may be configured in plurality.

On the inner circumferential surface of the upper side (left side in the figure) of the sleeve 10, a blocking portion 13 having a diameter smaller than the inner diameter is formed, and the blocking portion 13 has a small diameter sleeve 10 inserted therein. Is pulled out to block the separation.

The elastic part 20 made of synthetic resin is formed by insert injection as shown in FIG. 2B around the fixing groove 12 of the sleeve 10 configured as described above.

The elastic part 20 is inserted into the rear end of the sleeve 10, which is slightly larger in diameter, to allow the sleeve 10 to be pulled out or inserted by sliding, as well as to separate the combined sleeve 10. It acts as a stopper.

Accordingly, the sleeve 10 is in close contact with the inner circumferential surface of the sleeve 10 having a large diameter, as shown in FIG. 3A, without forming the latching jaw 11 as shown in FIG. 3B. It helps smooth sliding and also acts as a stopper.

The elastic portion 20 is formed to have a larger diameter toward the center portion as shown in Figure 4a, and is inserted when inserted into the other sleeve 10 by forming an opening portion 21 on the side as shown in Figure 4b This protrusion 22 may be formed so as to be easy, and as shown in FIG. 4C, the plurality of protrusions 22 are radially formed on the outer circumferential surface in the longitudinal direction without increasing the diameter of the center portion, so that the protrusions 22 are formed of the other sleeve 10. It may be configured to be in close contact with the inner peripheral surface.

In this case, the protrusion 22 may be formed in a semi-circular shape to be in point contact with the inner circumferential surface of the sleeve 10, may be formed in the longitudinal direction to be in line contact, and may be in surface contact by forming the upper side flat. It may be.

The shape of these protrusions 22 is the length of the antenna to be produced. By properly designing according to various specifications such as diameter and number of steps, the load value can be set freely.

As described above, the multi-stage antenna of the present invention simply configured by insert injection is completed through the five steps as shown in FIG.

First, in the antenna and mold design (S1) step, the injection mold is designed by calculating the number of sleeves 10 to be coupled and the load value of the elastic part 20 corresponding thereto.

When the design is finished, a plurality of sleeves 10 having respective diameters are manufactured in the sleeve manufacturing step S2, and a plurality of fixing grooves 12 are formed in the respective sleeves 10 in the fixing groove forming step S3. Form.

In the step of inserting the elastic part (S4), the sleeve 10 having the fixing groove 12 formed therein is seated in the mold, and then the raw material is input to form the elastic part 20 by insert injection.

When the elastic part 20 having different diameters and load values is formed in the sleeve 10, the present invention is completed by going through a sleeve assembly step S5 of assembling a plurality of sleeves 10 to assemble a multi-stage antenna. do.

The multi-stage antenna thus formed is not only environmentally friendly because the elastic portion 20 is made of synthetic resin, but not harmful materials such as beryl copper and phosphor bronze, and has an effect of reducing noise due to smooth operation.

In addition, according to the shape of the elastic portion 20, the load value can be variously and accurately designed, the formation of the locking step can be omitted, and the number of parts and assembly process of the multi-stage antenna can be reduced and mass production is possible. have.

As another embodiment of the present invention, as shown in FIGS. 6A and 6B, the sleeve 10 and the elastic body 30 are separated and formed, and the elastic body 30 is assembled to the sleeve 10 by a multi-stage antenna. It can also be configured.

At this time, one side of the elastic body 30 formed of synthetic resin by the injection mold is in close contact with the locking projection 11 formed at the end of the sleeve 10, the elastic body 30 is the other side of the elastic body 30 sleeve Fixing ring 40 is coupled to prevent the movement in the (10).

The elastic body 30, like the elastic portion 20 described above, at least any one of the diameter is increased toward the center portion, the opening portion is formed on the side, or a plurality of projections formed radially on the outer peripheral surface Of course it can be prepared in the form.

The present invention as described above is not limited to the above-described specific embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various changes without departing from the gist of the present invention as claimed in the claims. will be.

10: sleeve 11: locking jaw
12: fixing groove 13: blocking part
20: elastic portion 21: opening portion
22: projection 30: elastic body
40: retaining ring

Claims (4)

In the multi-stage antenna in which a plurality of sleeves of different diameters are coupled in the longitudinal direction and drawn out or inserted,
A plurality of fixing grooves are formed in the sleeve, and the fixing groove is a multi-stage antenna, characterized in that the elastic portion made of synthetic resin is integrally formed by insert injection.
The method of claim 1,
The elastic portion is a multi-stage antenna, characterized in that at least any one of the diameter is formed toward the central portion, the opening is formed on the side, or a plurality of projections formed radially on the outer peripheral surface.
In the multi-stage antenna in which a plurality of sleeves of different diameters are coupled in the longitudinal direction and drawn out or inserted,
One end of the elastic body formed of a synthetic resin by the injection mold is tightly coupled to the locking jaw formed at the end of the sleeve, the other side of the elastic body is coupled to the fixing ring to prevent the elastic body from moving in the sleeve,
The elastic body is a multi-stage antenna, characterized in that at least one of the larger diameter is formed toward the central portion, the opening is formed on the side, or a plurality of projections formed radially on the outer peripheral surface.
An antenna and mold design (S1) for designing an injection mold by calculating the number of sleeves to be coupled and the load value of the corresponding elastic portion;
Sleeve fabrication (S2) for fabricating a plurality of sleeves having respective diameters;
Fixing groove formation (S3) for forming a plurality of fixing grooves in the sleeve;
An elastic part insert injection (S4) for molding the elastic part through insert injection by inserting a raw material after seating the sleeve having the fixing groove formed on a mold;
A sleeve assembly (S5) for assembling a plurality of sleeves by combining a plurality of sleeves formed with elastic parts having different diameters and load values to each other;
Method of manufacturing a multi-stage antenna, characterized in that it is produced sequentially through the steps of.

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