TWM552680U - Multiband antenna structure - Google Patents

Description

Multi-frequency antenna structure

A multi-frequency antenna structure, especially a multi-frequency antenna directly integrated with an AND circuit A multi-frequency antenna structure that saves manufacturing costs and stabilizes the reception or transmission of signals.

At present, in the production of a multi-frequency antenna, a plurality of antennas are stamped and formed by using a metal foil, and then bent into an antenna, and a plurality of bent antennas are electrically connected to a single circuit substrate, so that the plurality of antennas are electrically connected to a single circuit substrate. The antenna is formed into a multi-band antenna structure arranged in a double-polarized array, or the pattern of the antenna is printed on a copper film of the circuit substrate by using a printing technique, and then the image of the antenna is formed by a technique such as development exposure or etching, and the plurality of antennas are formed. The circuit board having the antenna pattern is stacked into a multi-band antenna structure having a dual-polarized array arrangement, so that the multi-band antenna structure can be used in different frequency bands when transmitting and receiving signals. Since the former and the latter use multiple antennas to form a multi-band antenna structure, not only will the multi-band antenna structure be larger in size and size, but also the manufacturing cost will increase, and when the multi-band antenna structure is installed, The signal feeding points of multiple antennas are not in the same plane or at the same position, which may cause troubles in production and installation.

The conventional disadvantage is that, in order to comply with multiple frequency bands, it can be received at the same time. Therefore, when receiving the work of receiving multi-band signals, multiple noises are bound to occur, and the three-dimensional antenna structure is easy to be affected if vibration occurs during use. The effect of transmitting or receiving a signal.

Therefore, the above-mentioned defects are also fixed or protected by the multi-band antenna through the package, and the package is mainly carried out by means of injection or glue filling, but the packaged antenna cannot be reworked, and the above-mentioned missing is familiar. The goal of the person who wants to improve.

Accordingly, in order to solve the above-mentioned shortcomings of the prior art, the main purpose of the present invention is to provide a multi-frequency antenna structure which can reduce manufacturing cost and reduce noise.

In order to achieve the above object, the present invention provides a multi-frequency antenna structure, comprising: a base; a side of the base has a wiring area, the wiring area has a first metal trace and a second metal trace and a a connecting portion, wherein the first and second metal traces are arranged in a long scroll pattern, and two ends of the connecting portion are electrically connected to the first and second metal traces respectively.

Through this creative department, the problem of conventional multi-frequency antenna noise can be improved, and the antenna and the circuit can be integrated together, and the antenna can be produced at the same time, which not only improves the yield but also reduces the manufacturing cost.

1‧‧‧ base

1a‧‧‧Part 1

1b‧‧‧Part II

11‧‧‧First wiring area

12‧‧‧First metal trace

121‧‧‧ first end

122‧‧‧ second end

123‧‧‧First Middle Section

1231‧‧ The first paragraph of the first middle section

1232‧‧‧The second paragraph of the first middle section

1233‧‧‧ Third paragraph of the first middle section

1234‧‧The fourth paragraph of the first middle section

1235‧‧‧The fifth paragraph of the first middle section

1236‧‧‧Sixth paragraph of the first middle section

1237‧‧‧Seventh paragraph of the first middle section

1238‧‧‧8th paragraph of the first middle section

1239‧‧‧The ninth paragraph of the first middle section

Section 10 of the first middle section of 1240‧‧

1241‧‧‧11th paragraph of the first middle section

13‧‧‧Second metal trace

131‧‧‧ third end

132‧‧‧ fourth end

133‧‧‧Second middle section

1331‧‧‧First paragraph of the second middle section

1332‧‧‧ Second paragraph of the second middle section

1333‧‧‧ Third paragraph of the second middle section

1334‧‧‧The fourth paragraph of the second middle section

1335‧‧‧The fifth paragraph of the second middle section

1336‧‧‧6nd paragraph of the second middle section

1337‧‧‧ seventh paragraph of the second middle section

14‧‧‧Connecting Department

15‧‧‧Second wiring area

151‧‧‧ Third metal trace

152‧‧‧Electronic components

1 is a perspective view of a first embodiment of a multi-frequency antenna structure; FIG. 2 is a top view of a first embodiment of a multi-frequency antenna structure; FIG. 3 is a second implementation of a multi-frequency antenna structure. A perspective view of an example; FIG. 4 is an exploded perspective view of a third embodiment of the present multi-frequency antenna structure.

The above object of the present invention, as well as its structural and functional features, will be described in accordance with the preferred embodiments of the drawings.

Please refer to the first and second figures, which are perspective views and top views of the first embodiment of the multi-frequency antenna structure. As shown in the figure, the multi-frequency antenna structure of the present invention comprises: a base 1; The first wiring area 11 has a first metal wiring 12 and a second metal wiring 13 and a connecting portion 14 , and the first and second metal traces 12 and 13 The two ends of the connecting portion 14 are electrically connected to the first and second metal traces 12 and 13, respectively, and the thickness of the base portion 1 is 0.1 to 1 MM.

The first metal trace 12 has a first end 121 and a second end 122 and a first middle portion 123. The first end 121 is disposed away from the second end 122. The first middle portion 123 is disposed at the first end portion 123. Between the first and second ends 121 and 122, the first intermediate portion 123 is disposed in a long scroll shape, and the first end 121 is disposed on the outer side of the first intermediate portion 123. The second end 122 is disposed on the first end The inner side of a middle portion 123.

The second metal wire 13 has a third end 131 and a fourth end 132 and a second middle portion 133. The third end 131 is disposed away from the fourth end 132. The second middle portion 133 is disposed at the second end portion 133. Between the third and fourth ends 131 and 132, the second intermediate portion 133 is disposed in a long scroll shape, and the third end 131 is disposed on the outer side of the second middle portion 133. The fourth end 132 is disposed at the outer end. The inner side of the second middle portion 133.

The first end 121 of the first metal trace 12 is disposed adjacent to the third end 131 of the second metal trace 13 , and the base 1 is any one of a circuit board or a film material or a flexible circuit board. The first metal trace 12 can receive or transmit a frequency of 315 MHz, and the second metal trace 13 can receive or transmit a frequency of 433.92 MHz, and the line width of the first and second metal traces 12 and 13 is 0.5 MM, the first and second metal traces 12 and 13 have a pitch of 0.3 MM.

The first middle section 123 of the first metal trace 12 has a first section 1231 of a first middle section, a second section 1232 of a first middle section, and a third section 1233 of a first middle section and a first section The fourth section 1234 of a middle section and the fifth section 1235 of a first middle section and a sixth section 1236 of a first middle section and a seventh section 1237 of a first middle section and an eighth section of a first middle section The segment 1238 and the ninth segment 1239 of the first intermediate segment and the tenth segment 1240 of the first intermediate segment and the eleventh segment 1241 of the first intermediate segment.

The second section 1232 of the first middle section is disposed between the first and third sections 1231 and 1233 of the first middle section, and the two ends are curved with the first and third sections 1231 and 1233 of the first middle section. The fourth section 1234 of the first middle section is disposed between the third and fifth sections 1233 and 1235 of the first middle section, and the third end and the third section of the first middle section are connected. , five segments of 1233, 1235 are bent or vertical The sixth section 1236 of the first middle section is disposed between the fifth and seventh sections 1235 and 1237 of the first middle section, and the fifth and seventh sections 1235 and 1237 of the first middle section. Connected in any manner of bending or vertical, the eighth section 1238 of the first middle section is disposed between the seventh and the nine sections 1237 and 1239 of the first middle section, and the two ends and the first middle section The seventh and the nine segments 1237 and 1239 are connected in any one of a bend or a vertical manner, and the tenth segment 1240 of the first middle segment is disposed between the ninth and eleventh segments 1239 and 1241 of the first middle segment, and The two ends are connected to the ninth and eleventh segments 1239 and 1241 of the first middle portion in a manner of bending or perpendicularly. The first and third segments 1231 and 1233 of the first middle portion are separated by a distance of 8 mm. The outer width of the third and fifth segments 1233 and 1235 of the first middle portion is 3.4 mm.

The second middle section 133 of the second metal trace 13 has a first section 1331 of a second middle section, a second section 1332 of a second middle section, and a third section 1333 and a first section of the second middle section. The fourth section 1334 of the second middle section and the fifth section 1335 of the second middle section and the sixth section 1336 of the second middle section and the seventh section 1337 of the second middle section.

The second section 1332 of the second middle section is disposed between the first and third sections 1331 and 1333 of the second middle section, and the two ends are curved with the first and third sections 1331 and 1333 of the second middle section. Folded or vertically connected in any manner, the fourth section 1334 of the second middle section is disposed between the third and fifth sections 1333 and 1335 of the second middle section, and the third end and the third section of the second middle section The five segments 1333 and 1335 are connected in a bent or vertical manner, and the sixth segment 1336 of the second middle portion is disposed between the fifth and seventh segments 1335 and 1337 of the second middle portion, and both ends The fifth and seventh segments 1335 and 1337 of the second middle portion are connected in a bent or vertical manner, and the outer width of the third and fifth segments 1333 and 1335 of the second middle portion is 2.6 mm.

The two ends of the connecting portion 14 are respectively connected to the first segment 1231 of the first middle portion and the first segment 1331 of the second middle portion.

The third embodiment of the present invention is a perspective view of the second embodiment of the multi-frequency antenna structure. As shown in the figure, the embodiment is identical to the foregoing first embodiment, and therefore will not be described again, but the embodiment is omitted. The difference from the foregoing first embodiment is that the base 1 has a second wiring region 15, the second wiring region 15 is adjacent to the first wiring region 11, and the second wiring region 15 is provided with a plurality of third portions. The metal trace 151 or the plurality of electronic components 152, that is, when the metal trace circuit is printed or etched in the embodiment, the first and second metal traces 12 used as the multi-frequency antenna in the first wiring region 11 are simultaneously 13 is formed together, thereby greatly saving man-hours and manufacturing costs during manufacturing.

4 is a perspective exploded view of the third embodiment of the multi-frequency antenna structure of the present invention. As shown in the figure, the embodiment is identical to the foregoing first embodiment, and therefore will not be described herein again. The embodiment differs from the first embodiment in that the base 1 is a multilayer circuit board, and the base 1 has a first portion 1a and a second portion 1b, the first and second portions 1a, 1b. The first wiring region 11 is disposed on one side of the first portion 1a, and the second portion 1b covers the first portion 1a and is provided with one side of the first wiring region 11, the second The wiring area 15 is disposed on the side of the second portion 1b opposite to the first portion 1a. This embodiment discloses that the multi-frequency antenna structure is integrated into one layer of the multi-layer circuit, which not only saves manufacturing cost but also protects through the multi-layer circuit board. The multi-frequency antenna structure.

This creation mainly improves the lack of traditional multi-frequency antennas, and directly installs metal traces on the circuit substrate by printing or etching to integrate with the circuit of the circuit board, which not only reduces the manufacturing cost, but also uses metal. The method of routing directly integrates the multi-frequency antenna into the multi-layer substrate further saves space, and can improve the lack of structural strength of the conventional multi-frequency antenna.

This creation is especially applied to the antenna for transmitting or receiving the tire pressure monitoring (TPMS) system. It achieves the effect of receiving and transmitting multiple frequency bands with a single antenna structure, and more particularly improves the noise problem of the conventional conventional tire pressure monitoring (TPMS) system. And those who reduce manufacturing costs.

1‧‧‧ base

11‧‧‧First wiring area

12‧‧‧First metal trace

121‧‧‧ first end

122‧‧‧ second end

123‧‧‧First Middle Section

13‧‧‧Second metal trace

131‧‧‧ third end

132‧‧‧ fourth end

133‧‧‧Second middle section

14‧‧‧Connecting Department

Claims (13)

A multi-frequency antenna structure includes: a base portion having a first wiring region on one side thereof, the first wiring region having a first metal trace and a second metal trace and a connecting portion, and The first and second metal traces are arranged in a long scroll pattern, and the two ends of the connecting portion are electrically connected to the first and second metal traces respectively. The multi-frequency antenna structure of claim 1, wherein the first metal trace has a first end and a second end and a first middle portion, and the first end is disposed away from the second end The first middle portion is disposed between the first and second ends, the first middle portion is disposed in a long scroll shape, and the first end is disposed on an outer side of the first middle portion, and the second end is disposed on the outer side The second metal wire has a third end and a fourth end and a second middle portion, the third end is disposed away from the fourth end, and the second middle portion is disposed at Between the third and fourth ends, the second middle portion is disposed in a long scroll shape, and the third end is disposed on an outer side of the second middle portion, and the fourth end is disposed on the inner side of the second middle portion . The multi-frequency antenna structure of claim 2, wherein the first end of the first metal trace is disposed adjacent to the third end of the second metal trace. The multi-frequency antenna structure of claim 1, wherein the base is any one of a circuit board or a film material or a flexible circuit board. The multi-frequency antenna structure of claim 1, wherein the first metal trace can receive or transmit a frequency of 315 MHz, wherein the second metal trace can receive or transmit a frequency of 433.92 MHz. The multi-frequency antenna structure of claim 1, wherein the first and second metal traces have a line width of 0.5 MM. The multi-frequency antenna structure of claim 1, wherein the first and second metal traces have a pitch between the first and second metal traces, and the pitch is 0.3 MM. The multi-frequency antenna structure of claim 2, wherein the first middle portion of the first metal trace has a first segment of the first middle segment and a second segment of the first intermediate segment and a The third section of the first middle section and the fourth section of a first intermediate section and a fifth section of a first intermediate section and a sixth section of a first intermediate section and a seventh section of a first intermediate section and a The eighth segment of the first middle segment and the ninth segment of the first intermediate segment and the tenth segment of the first intermediate segment and the eleventh segment of the first intermediate segment, the second segment of the first intermediate segment Between the first and third sections of the first intermediate section, and the two ends are connected to the first and third sections of the first intermediate section in a bent or vertical manner, and the first intermediate section is The fourth section is disposed between the third and fifth sections of the first middle section, and the two ends are connected to the third and fifth sections of the first middle section in a bent or vertical manner, and the first middle section is The sixth segment is disposed between the fifth and seventh segments of the first intermediate section, and the two ends are connected to the fifth and seventh segments of the first intermediate section in a bent or vertical manner. The eighth section of the first middle section is disposed between the seventh and the ninth sections of the first middle section, and the two ends are bent or perpendicular to the seventh and the ninth sections of the first middle section. Connecting, the tenth section of the first middle section is disposed between the ninth and eleventh sections of the first middle section, and the two ends are bent with the ninth and eleventh sections of the first middle section Or the vertical connection is performed in any one of the manners, the outer width of the first and third segments of the first middle portion is 8 mm, and the outer width of the third and fifth segments of the first middle portion is 3.4 mm. The multi-frequency antenna structure of claim 2, wherein the second middle portion of the second metal trace has a first segment of the second middle segment and a second segment of the second intermediate segment and a second segment The third section of the second intermediate section and the fourth section of a second intermediate section and the fifth section of a second intermediate section and a sixth section of a second intermediate section and a seventh section of a second intermediate section, The second section of the second middle section is disposed between the first and third sections of the second middle section, and the first and third sections of the second intermediate section are bent or perpendicular In any one of the manners, the fourth section of the second middle section is disposed between the third and fifth sections of the second middle section, and the ends and the third and fifth sections of the second middle section are bent or Connected in any one of the vertical manners, the sixth section of the second middle section is disposed between the fifth and seventh sections of the second middle section, and the ends are bent in the fifth and seventh sections of the second middle section Folded or vertically connected in any manner, the third and fifth segments of the second middle portion have a width of 2.6 mm outside. The multi-frequency antenna structure according to claim 2, wherein the base has a thickness of 0.1 to 1 MM. The multi-frequency antenna structure of claim 2, wherein the two ends of the connecting portion are respectively connected to the first segment of the first intermediate portion and the first segment of the second intermediate portion. The multi-frequency antenna structure of claim 1, wherein the base is a multi-layer circuit board, and the base has a first portion and a second portion, the first and second portions are stacked on each other The layer is disposed, the first wiring region is disposed on one side of the first portion, and the second portion covers the first portion of the first portion to be disposed on one side of the first wiring region, and a second wiring region is disposed on the opposite side of the second portion One side of the first part. The multi-frequency antenna structure according to claim 1, wherein the base has a second wiring region, the second wiring region is adjacent to the first wiring region, and the second wiring region is provided with a plurality of third portions. Metal trace or any of a number of electronic components.