KR101506500B1 - The manufacturing method of the built-in antenna - Google Patents

Abstract

An antenna module for a portable terminal in which a case or a cover of the present invention and an antenna radiator are modularized, and a method of manufacturing the same; The antenna radiator is made of flat and multi-axial curved surfaces as an antenna radiator having a connection terminal, which can be connected to a connection portion connected to a main board circuit of an electronic device by pressing a conductive metal material. When the antenna radiator is inserted into an injection molding die, The antenna radiator manufactured by bending the end face of the antenna radiator in order to prevent lifting of the antenna radiator after injection molding is inserted into the injection molding die made of the concave and convex shape of the antenna radiator insert part at the lowest position, Which is manufactured by insert injection molding.
The present invention relates to a method of manufacturing an antenna radiator of a conductive metallic material such as phosphor bronze or SUS into an injection molding die and insert injection molding on the outer surface of a molded case of a portable terminal or a cover to maximize the transmission and reception efficiency of the antenna, The manufacturing process of the antenna module for a portable terminal in which the antenna radiator is inserted by a single insert injection molding is remarkably reduced, thereby ensuring price competitiveness.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an antenna module for a portable terminal,

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to an antenna module for a portable terminal in which a case or a cover and an antenna radiator are modularized and a manufacturing method of the mold. More particularly, the present invention relates to a radiator support protrusion structure for preventing positional fixation of an antenna radiator and lifting of a radiator during injection molding In order to prevent lifting of the antenna radiator after injection molding, the antenna radiator is injection-molded into an injection molding die manufactured to have a minimum concavo-convex shape to the antenna radiator insert portion, and then the antenna radiator is mounted on the outer surface of the antenna module So as to maximize the reception ratio of the antenna and drastically reduce the manufacturing process, thereby making the portable terminal slimmer and having the best price competitiveness.

Although the LDS antenna and FPCB antenna are mainly used for the built-in antenna of the portable terminal, the portable terminal case and the antenna are manufactured and assembled or adhered to each other. However, there are many problems of quality of lifting, cracking and post-processing of the antenna. Assembling and bonding, the manufacturing cost is high, and there is a limit to the slimming of the portable terminal.

In addition, the above-described antenna is required to be manufactured with a UV coating for protecting the antenna radiator, which increases manufacturing cost and is not environmentally friendly.

Patent No. 069969 Registration date: September 27, 2011

Accordingly, it is an object of the present invention to provide a position fixing pin for fixing the position of the antenna radiator in order to solve the conventional problems, an antenna radiator support projection structure for preventing lifting of the antenna radiator during injection molding, The antenna radiator is pulled into an injection molding die made of a concave concavo-convex shape with the radiator insert portion being minimized, and the antenna radiator is insert-molded so as to be exposed to the outer surface of the antenna module constituting the portable terminal case or the cover. Coatings, etc., thereby improving the price competitiveness, improving the quality problems of lifting the FPCB antenna and cracking the LDS antenna.

That is, the present invention provides an antenna module for a portable terminal in which a case or a cover and an antenna radiator are modularized, and a method of manufacturing the same; The antenna radiator is an antenna radiator of a connection terminal integrated type which is manufactured so that a conductive metallic material such as phosphor bronze or SUS can be connected to a connection portion connected to an electronic device main board circuit by pressing processing. In order to improve antenna transmission and receiving efficiency, A positioning hole for fixing the position of the antenna radiator when the antenna is inserted into the injection molding die, and an antenna radiator by bending the end face to prevent lifting of the antenna radiator after the injection molding. In the injection molding die, An antenna radiator supporting protrusion structure for preventing lifting of the antenna radiator during injection molding and a radiator of the antenna radiator insert portion after injection molding to form a plane after injection molding, The emitter of the insert, which is the antenna radiator, And an antenna radiator is inserted into an injection molding die manufactured so as to be manufactured in any one of the shapes in which the insert portion of the antenna radiator is made to have a concave concavo-convex shape, And is formed by injection molding so as to be exposed to the outer surface.

According to another embodiment of the present invention, there is provided an antenna module for a portable terminal in which a case or a cover and an antenna radiator are modularized, and a method of manufacturing the same; Wherein the position fixing pin for positioning the antenna radiator is fixed to the lower portion of the injection molding die by using a spring, a hydraulic or an air cylinder.

According to another embodiment of the present invention, there is provided an antenna module for a portable terminal in which a case or a cover and an antenna radiator are modularized, and a method of manufacturing the same; The antenna is manufactured by molding at least one of a main antenna, an LTE antenna, a GPS antenna, and a B / T antenna for wireless communication into an injection molding mold and modularizing the antenna case or the case and the antenna radiator by injection molding.

In another embodiment of the present invention, the upper surface of the exposed antenna radiator is formed by UV coating after the antenna radiator insert injection molding.

The antenna module for a portable terminal manufactured by insert injection molding using an antenna radiator according to another embodiment of the present invention is characterized in that the antenna radiator insert portion of the injection molded product formed by the insert injection molding is provided with a depression, Is inserted into the depression so that the surface of the antenna radiator is formed to be lower than the surface of the injection molded article around the antenna radiator insert portion to have a concave shape.
The depressed portion may include a first depressed portion and a second depressed portion formed by being recessed again at the first depressed portion, and the antenna radiator may be disposed at the depressed portion of the second depressed portion.
And the surface of the antenna radiator may be disposed at the two-step depression so as to have the same height as the bottom surface of the one-step depressed portion.

The present invention relates to an antenna for a portable terminal, which inserts an antenna radiator of a conductive metallic material such as phosphor bronze or SUS into an injection molding die and inserts injection molding on the outer surface of an injection molded article of a portable terminal antenna module to maximize the transmission and reception efficiency of the antenna, The manufacturing process of the antenna module for a portable terminal in which the antenna radiator is inserted by a single insert injection molding is remarkably reduced, thereby ensuring price competitiveness.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary diagram showing an embodiment of the present invention. FIG.
Fig. 2 is an illustration of a mold showing a manufacturing process in the practice of the present invention. Fig.
Figures 3 to 5 are partial detail cross-sectional illustrations of an extrudate.
FIG. 6 is an exemplary view showing a process in which an antenna radiator is bonded to a frame in a process according to the present invention. FIG.
FIG. 7 is an exemplary view showing a process in which a plurality of antenna radiators are inserted in a process according to the present invention; FIG.
FIG. 8 is an exemplary view showing the application of an eardrum structure in the practice of the present invention; FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The antenna radiator is inserted to be exposed to the outer surface of the antenna module for a portable terminal to maximize the transmission and reception efficiency of the antenna and to prevent the antenna radiator from being deformed, damaged or plated, So that a portable terminal antenna module can be manufactured.

That is, in the present invention, the antenna radiator 100 includes an antenna radiator 100 integrated with a connection terminal 101, which is manufactured to be connectable with a connection portion connected to a main board circuit of an electronic device by pressing a conductive metallic material such as phosphor bronze or SUS, A hole 220 for fixing the position of the antenna radiator 100 when the injection mold is drawn in, and a bent portion 220 for preventing the antenna radiator from lifting after injection molding And the bent portion 102 is formed to manufacture the antenna radiator 100.

The antenna radiator 100 manufactured as described above can be manufactured by manufacturing the antenna radiator 100 separated one by one and by fabricating a plurality of antenna radiators 100 on one frame 110, So that the frame 110 can be separated.

The antenna radiator 100 is coupled to the frame 110 by a separator 112. The separator 112 separates both ends of the antenna radiator and the connecting portion 111 of the frame 110 , And a sheath).

After the antenna radiator 100 has been formed by injection molding, the radiator insert portion may be formed in a plane, the radiator insert portion may be formed to have a concave concavo-convex shape at a minimum, or a radiator insert portion may be formed to have a concave concavo- The antenna radiator is drawn into the mold and the antenna radiator is exposed to the outside of the antenna module of the portable terminal.
3 to 5, the radiator insert portion formed by injection molding has a depression, and the antenna radiator 100 can be inserted into the depression. 3, the surface of the antenna radiating element 100 may be flush with the surface of the radiating insert, so that the surface of the antenna radiating element 100 may be flattened as shown in FIG. The antenna radiator 100 may be inserted into the double depression of the radiator insert portion to form a concave shape as shown in FIG. 5 . 5, the double depressed portion may include a depressed portion at one end and a depressed portion at a two-step depressed at the depressed portion, and the antenna radiator 100 may be inserted into the depressed portion at two depressed portions, The surface of the antenna radiator 100 may be flush with the bottom surface of the one-step depressed portion.

Here, the concavo-convex shape of the antenna radiator 100 at the lowest level where the antenna radiator 100 is inserted is preferably formed at a depth that the user does not feel jittery due to tactile sensation, and is preferably formed at a depth of 1/3 or less of the thickness of the antenna radiator 100.

The injection molding metal mold includes a position fixing pin 11 for fixing the position of the antenna radiator 100 and an antenna radiator 100 for preventing deformation and lifting and overmolding of the antenna radiator 100 during injection molding. So that the projecting pin 12 is formed.

The injection molding die is manufactured such that the pins for fixing the position of the antenna radiator 100 after the injection molding and the frame position fixing pins can be moved to the lower side of the injection molding metal mold, The position fixing pin hole of the antenna radiator 100 can be completely blocked.

The injection molding die can be modularized by inserting a plurality of antenna radiators 100 (a main antenna for wireless communication, an LTE antenna, a GPS antenna, a B / T antenna, and the like) and insert injection molding.

The injection molding die has a built-in loudspeaker and a loudspeaker loudspeaker structure 310. The loudspeaker and the speaker loudspeaker cover 311 are coupled to each other so that the antenna, the loudspeaker 320 and the speaker loudspeaker can be modularly integrated will be.

In another embodiment of the present invention, the upper surface of the exposed antenna radiator is formed by UV coating after the antenna radiator insert injection molding.

The antenna radiator is inserted into an injection molding die and insert injection molding is performed on the outer surface of the antenna module constituting the portable terminal case or the cover to maximize the transmission and reception efficiency of the antenna and to prevent the antenna radiator from being deformed, And the manufacturing process of the antenna module for a portable terminal in which the antenna radiator is inserted by a single insert injection molding is significantly reduced to secure price competitiveness, reduce manufacturing cost, and secure price competitiveness.

11: Position fixing pin 12: Supporting projection pin
100: antenna radiator
101: connection terminal 102:
110: frame
111: connection part 112:
200: Injection molding 220: Hole
310: Resonator structure 311: Resonator cover
320: Speaker

Claims (9)

A method of manufacturing an antenna module and a case for a portable terminal in which a case and an antenna radiator are modularized, the method comprising:
The antenna radiator is made of flat and multi-axial curved surfaces as an antenna radiator having a connection terminal, which can be connected to a connection portion connected to a main board circuit of an electronic device by pressing a conductive metal material. When the antenna radiator is inserted into an injection molding die, Holes and inserts are manufactured by bending fracture surfaces to prevent lifting of the antenna radiator after injection molding,
Wherein the antenna radiator is disposed in the recess so that the surface of the antenna radiator is lower than the surface of the insert molding around the antenna radiator insert, And the antenna radiator is modularized by insert injection molding so that the upper surface of the antenna radiator is exposed.
The method of claim 1, further comprising:
Injection molding mold has a fin that fixes the position of the antenna radiator, an antenna radiator support projection structure that prevents deformation and lifting of the antenna radiator during injection molding, overmolding, and an antenna radiator insert. A method of manufacturing an antenna module and a case for a portable terminal, the antenna radiator being modularized by a case or a cover manufactured by pulling an antenna radiator into an injection molding die manufactured by a concavo-convex shape.
delete The method of claim 1, further comprising:
The injection molding die is provided with a case or cover made by molding at least one of a main antenna for transmitting and receiving, an LTE antenna, a GPS antenna, and a B / T antenna, (EN) METHOD FOR MANUFACTURING ANTENNA MODULE AND CASE FOR MOBILE TERMINALS MODIFIED WITH RADIATOR.
delete delete An antenna module for a portable terminal manufactured by insert injection molding using an antenna radiator,
The antenna radiator insert portion of the injection-molded article formed by the insert injection molding is provided with a depression,
Wherein the antenna radiator is inserted into the depression so that the surface of the antenna radiator is formed to have a concave shape with a lower surface than the surface of the injection molded article around the insert portion of the antenna radiator.
8. The method of claim 7,
Wherein the depressed portion has a depressed portion at one end and a depressed portion at the other end formed by being recessed at the depressed portion at the other end,
Wherein the antenna radiator is disposed at the two-step depression.
9. The method of claim 8,
Wherein the surface of the antenna radiator is disposed at the second depressed portion so as to have the same height as the bottom surface of the first depressed portion.

Images