CN210956984U - 5G integrated spring plate antenna - Google Patents
5G integrated spring plate antenna Download PDFInfo
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- CN210956984U CN210956984U CN201922193409.0U CN201922193409U CN210956984U CN 210956984 U CN210956984 U CN 210956984U CN 201922193409 U CN201922193409 U CN 201922193409U CN 210956984 U CN210956984 U CN 210956984U
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Abstract
The utility model discloses a 5G integrated spring plate antenna, which comprises a radiation unit consisting of a radiation vibrator part, a feed part and a support part; the radiation oscillator part and the supporting part and the feeding part are integrally bent and formed, the symmetrical supporting part top outer ends are integrally bent to form a U-shaped structure, the radiation oscillator part comprises symmetrical first radiation parts and symmetrical second radiation parts, the symmetrical first radiation parts are arranged on two sides of the supporting part on one side, the symmetrical second radiation parts are arranged on two sides of the supporting part on the other side, the first radiation parts are arc-shaped outer contours with inner hook structures, the second radiation parts are arc-shaped outer contours with outer hook structures, and the inner hook structures and the outer hook structures are arranged in opposite directions. The utility model discloses a realize whole product integration, the lightweight.
Description
Technical Field
The utility model belongs to the technical field of wireless communication, especially, relate to a 5G integration shell fragment antenna.
Background
The communication system is a combination of wired and wireless, and the transmission and reception of spatial wireless signals are realized by means of antennas, so that the antennas play an important role for the wireless communication system.
The antenna is made of zinc alloy or aluminum alloy by adopting a die-casting process, and the feeding mode adopts a mode of combining a coaxial line and a feeding sheet. The radiation properties can be achieved very well by means of surface treatment processes and welding processes. The single antenna element formed product comprises a plurality of parts and is formed through a plurality of welding processes.
The die-cast vibrator has the following problems in the application of 5G array: (1) the manufacturing process is complex, especially the welding process; (2) the weight problem of the antenna unit is that although the single antenna unit is not heavy, the weight of the antenna unit is objective in the case of large-scale array, the whole weight reduction of the 5G base station is not favorable, and meanwhile, the die-cast oscillator needs to be fixed by adopting a reflecting plate.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the technical problem, and provide 5G integration shell fragment antenna to realize whole product integration, the lightweight. In order to achieve the above purpose, the utility model discloses technical scheme as follows:
the 5G integrated elastic sheet antenna comprises a radiation unit consisting of a radiation oscillator part, a feed part and a support part; the radiation oscillator part and the supporting part and the feeding part are integrally bent and formed, the symmetrical supporting part top outer ends are integrally bent to form a U-shaped structure, the radiation oscillator part comprises symmetrical first radiation parts and symmetrical second radiation parts, the symmetrical first radiation parts are arranged on two sides of the supporting part on one side, the symmetrical second radiation parts are arranged on two sides of the supporting part on the other side, the first radiation parts are arc-shaped outer contours with inner hook structures, the second radiation parts are arc-shaped outer contours with outer hook structures, and the inner hook structures and the outer hook structures are arranged in opposite directions.
Specifically, the upper parts of the symmetrical supporting parts are arranged at intervals, and the bottoms of the symmetrical supporting parts are oppositely abutted.
Specifically, the outer end of the bottom of the supporting part is connected with the feeding part.
Specifically, the lower part of the supporting part is of an arc-shaped turning structure, and the middle part of the supporting part is connected with the radiation vibrator part.
Specifically, the support part and the feeding part are arranged vertically.
Specifically, the opposite feeding portions are respectively arranged in a reverse extending manner, and a V-shaped included angle is formed between the opposite feeding portions.
Specifically, the power feeding portion has a plate-shaped trapezoidal structure.
Compared with the prior art, the utility model discloses 5G integration shell fragment antenna's beneficial effect mainly embodies:
the radiation vibrator part, the supporting part and the feeding part are integrally bent and formed, and a plurality of welding processes are replaced by sheet metal bending and integral forming, so that the integral structure is simplified, the installation process of parts is reduced, the size of a product is reduced, the weight of the product is reduced, and the miniaturization and the light weight of the integral structure are realized; the first radiation part and the second radiation part are arranged in parallel relatively, and the inner hook structure and the outer hook structure are arranged oppositely, so that the transmission stability is realized; the bottoms of the symmetrical supporting parts are oppositely abutted to form a combined structure, so that the installation and control are easy; and a V-shaped included angle is formed between the opposite feed parts, so that signals are effectively transmitted.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention;
the figures in the drawings represent:
the antenna comprises a support part 1, an arc-shaped turning structure 11, a first radiation part 2, an inner hook structure 21, a second radiation part 3, an outer hook structure 31, a feed part 4 and a 41V-shaped included angle.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.
Example (b):
referring to fig. 1, the 5G integrated patch antenna of the present embodiment includes a radiating unit composed of a radiating element portion, a feeding portion, and a supporting portion; the radiation oscillator part, the supporting part and the feeding part are integrally bent and formed, and the outer ends of the tops of the symmetrical supporting parts 1 are butted and integrally bent to form a U-shaped structure.
The radiating oscillator part comprises a first radiating part 2 which is arranged on two sides of the supporting part 1 on one side and is symmetrical, and a second radiating part 3 which is arranged on two sides of the supporting part 1 on the other side and is symmetrical. The first radiation part 2 has an arc-shaped outer contour with an inward hooking structure 21. The second radiation part 3 has an arc-shaped outer contour with an outer hook structure 31. The inner hook structure 21 and the outer hook structure 31 are arranged oppositely.
The upper parts of the symmetrical supporting parts 1 are arranged at intervals, the bottoms of the symmetrical supporting parts are abutted against each other, and the outer ends of the bottoms of the supporting parts 1 are connected with the feeding parts 4. The lower part of the supporting part 1 is an arc-shaped turning structure 11. The middle part of the support part 1 is connected with the radiation vibrator part.
The support portion 1 is disposed perpendicularly to the power feeding portion 4, the opposite power feeding portions 4 extend in opposite directions, and V-shaped clip angles 41 are formed between the opposite power feeding portions 4.
The power feeding unit 4 has a plate-like trapezoidal structure.
When the embodiment is applied, the radiation vibrator part, the supporting part and the feeding part 4 are integrally bent and formed, a plurality of welding processes are replaced by sheet metal bending and integral forming, the integral structure is simplified, and the installation process of parts is reduced, so that the size of a product is reduced, the weight of the product is reduced, and the miniaturization and the light weight of the integral structure are realized; the first radiation part 2 and the second radiation part 3 are arranged in parallel relatively, and the inner hook structure 21 and the outer hook structure 31 are arranged in opposite directions, so that the transmission stability is realized; the bottoms of the symmetrical supporting parts 1 are oppositely abutted to form a combined structure, so that the installation and control are easy; the opposite feeding portions 4 form a V-shaped clip angle 41 therebetween, so that signals are effectively transmitted.
What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.
Claims (7)
- The 1.5G integrated elastic sheet antenna comprises a radiation unit consisting of a radiation oscillator part, a feed part and a support part; the method is characterized in that: the radiation oscillator part and the supporting part and the feeding part are integrally bent and formed, the symmetrical supporting part top outer ends are integrally bent to form a U-shaped structure, the radiation oscillator part comprises symmetrical first radiation parts and symmetrical second radiation parts, the symmetrical first radiation parts are arranged on two sides of the supporting part on one side, the symmetrical second radiation parts are arranged on two sides of the supporting part on the other side, the first radiation parts are arc-shaped outer contours with inner hook structures, the second radiation parts are arc-shaped outer contours with outer hook structures, and the inner hook structures and the outer hook structures are arranged in opposite directions.
- 2. The 5G integrated dome antenna of claim 1, wherein: the upper parts of the symmetrical supporting parts are arranged at intervals, and the bottoms of the supporting parts are oppositely abutted.
- 3. The 5G integrated dome antenna of claim 1, wherein: the outer end of the bottom of the supporting part is connected with the feeding part.
- 4. The 5G integrated dome antenna of claim 1, wherein: the lower part of the supporting part is of an arc-shaped turning structure, and the middle part of the supporting part is connected with the radiation vibrator part.
- 5. The 5G integrated dome antenna of claim 3, wherein: the supporting part and the feeding part are arranged vertically relatively.
- 6. The 5G integrated dome antenna of claim 5, wherein: the opposite feed parts are respectively arranged in a reverse extending mode, and a V-shaped included angle is formed between the opposite feed parts.
- 7. The 5G integrated dome antenna of claim 6, wherein: the feeding portion is of a plate-shaped trapezoidal structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201922193409.0U CN210956984U (en) | 2019-12-09 | 2019-12-09 | 5G integrated spring plate antenna |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201922193409.0U CN210956984U (en) | 2019-12-09 | 2019-12-09 | 5G integrated spring plate antenna |
Publications (1)
Publication Number | Publication Date |
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CN210956984U true CN210956984U (en) | 2020-07-07 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201922193409.0U Active CN210956984U (en) | 2019-12-09 | 2019-12-09 | 5G integrated spring plate antenna |
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CN (1) | CN210956984U (en) |
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2019
- 2019-12-09 CN CN201922193409.0U patent/CN210956984U/en active Active
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