CN-224217704-U - Communication antenna and electronic equipment

Abstract

The application discloses a communication antenna and electronic equipment, wherein the communication antenna comprises a radiation unit, a guiding structure and a guiding unit, the radiation unit is connected with the handheld communication equipment, the radiation unit is configured to transmit a first signal provided by the handheld communication equipment, the guiding structure comprises a reversing unit and a guiding unit, the reversing unit is connected with the radiation unit, the guiding unit is connected with the radiation unit, the reversing unit is configured to radiate the first signal to the direction of the guiding unit, and the guiding unit is configured to concentrate radiation energy of the first signal to a preset direction. According to the technical scheme, the first signal provided by the handheld communication equipment is radiated to the direction of the guiding unit through the reversing unit, and the radiation energy of the first signal is concentrated to the preset direction through the guiding unit, so that the radiation energy of the first signal is concentrated to the required communication direction, the waste of the radiation energy is reduced, the radiation distance and the coverage range of the radiation energy are improved, and the communication quality is further improved.

Inventors

• XIN FENG
• CHEN HU
• WU ZEWEI

Assignees

• 海能达通信股份有限公司

Dates

Publication Date

20260508

Application Date

20250429

Claims (10)

1. 1. A communication antenna for connection with a handheld communication device, the communication antenna comprising: A radiating element for connection with the handheld communication device, wherein the radiating element is configured to transmit a first signal provided by the handheld communication device; the guiding structure comprises a reversing unit and a guiding unit, wherein the reversing unit is detachably connected with the radiating unit, the guiding unit is detachably connected with the radiating unit, the reversing unit is configured to radiate at least part of radiation energy of the first signal to the direction of the guiding unit, and the guiding unit is configured to concentrate the radiation energy of the first signal to a preset direction.
2. 2. A communication antenna according to claim 1, wherein, The reversing unit is arranged on one side of the radiating unit, the guiding unit is arranged on the other side of the radiating unit, and the reversing unit, the radiating unit and the guiding unit are arranged on the same straight line.
3. 3. A communication antenna according to claim 1, wherein, The first length of the reversing unit is greater than the second length of the guiding unit, wherein the first length of the reversing unit is less than a preset length.
4. 4. A communication antenna according to claim 3, wherein, The first length of the reversing element is greater than the third length of the radiating element, and the second length of the steering element is less than the third length of the radiating element.
5. 5. A communication antenna according to claim 1, wherein, The first separation distance between the reversing unit and the radiating unit is greater than the second separation distance between the guiding unit and the radiating unit.
6. 6. A communication antenna according to claim 1, wherein, The reversing unit is of a spiral structure and/or the guiding unit is of a spiral structure and/or the radiating unit is of a spiral structure.
7. 7. A communication antenna according to claim 1, wherein, The guide structure further includes: The first connection structure is detachably arranged on the radiation unit, wherein the reversing unit is arranged at one end of the first connection structure, and the guiding unit is arranged at the other end of the first connection structure.
8. 8. The communication antenna of claim 7, wherein the antenna is configured to transmit the antenna signal, The first connection structure includes: The first connecting unit is detachably connected with the radiation unit; The second connecting unit is connected with the first connecting unit, the reversing unit is arranged at one end of the second connecting unit, and the guiding unit is arranged at the other end of the second connecting unit.
9. 9. The communications antenna of claim 1, further comprising: and the second connecting structure is respectively connected with the radiating unit and the handheld communication equipment, wherein the second connecting structure is a radio frequency coaxial connector.
10. 10. An electronic device comprising a transceiver and a communication antenna according to any of claims 1-9, wherein the transceiver and the communication antenna are connected.

Description

Communication antenna and electronic equipment Technical Field The present application relates to the field of antenna technologies, and in particular, to a communication antenna and an electronic device. Background With the gradual maturity and popularization of network communication, the continuous progress of wireless communication technology and the increasingly complex application scene, the performance optimization of communication antennas becomes a key factor for improving the communication quality. The current communication antenna is often limited by the traditional form and design concept, the improvement of performance gradually reaches the bottleneck, such as the approximate position of a known target, but the communication distance reaches the limit, or when a large number of obstacles exist in the communication environment, the omnidirectional radiation characteristic of the antenna can cause a large amount of energy to be consumed, so that the communication efficiency and coverage area are influenced, and the communication quality is further influenced. Disclosure of utility model The technical scheme of the application mainly solves the technical problems of providing the communication antenna and the electronic equipment, which can effectively improve the communication efficiency and coverage area and further improve the communication quality. In order to solve the technical problem, the technical scheme adopted by the application is that the communication antenna is used for being connected with handheld communication equipment and comprises a radiation unit, a guiding structure and a guiding unit, wherein the radiation unit is used for being connected with the handheld communication equipment and is configured to send a first signal provided by the handheld communication equipment, the guiding structure comprises a reversing unit and a guiding unit, the reversing unit is detachably connected with the radiation unit, the guiding unit is detachably connected with the radiation unit, the reversing unit is configured to radiate at least part of radiation energy of the first signal to the direction of the guiding unit, and the guiding unit is configured to concentrate the radiation energy of the first signal to a preset direction. In an embodiment of the application, the reversing unit is located at one side of the radiating unit, the guiding unit is located at the other side of the radiating unit, and the reversing unit, the radiating unit and the guiding unit are located on the same straight line. In an embodiment of the present application, the first length of the reversing unit is greater than the second length of the guiding unit, wherein the first length of the reversing unit is less than a preset length. In an embodiment of the application, the first length of the reversing element is greater than the third length of the radiating element and the second length of the steering element is less than the third length of the radiating element. In one embodiment of the application, the first separation distance of the reversing element from the radiating element is greater than the second separation distance of the steering element from the radiating element. In an embodiment of the present application, the reversing unit is in a spiral structure, the guiding unit is in a spiral structure, and the radiating unit is in a spiral structure. In one embodiment of the application, the guiding structure further comprises a first connecting structure detachably arranged on the radiating unit, wherein the reversing unit is arranged at one end of the first connecting structure, and the guiding unit is arranged at the other end of the first connecting structure. In one embodiment of the application, the first connecting structure comprises a first connecting unit and a second connecting unit, wherein the first connecting unit is detachably connected with the radiating unit, the second connecting unit is connected with the first connecting unit, the reversing unit is arranged at one end of the second connecting unit, and the guiding unit is arranged at the other end of the second connecting unit. In one embodiment of the application, the portable communication device further comprises a second connection structure, wherein the second connection structure is respectively connected with the radiation unit and the portable communication device, and the second connection structure is a radio frequency coaxial connector. In order to solve the technical problem, another technical scheme adopted by the application is to provide electronic equipment, wherein the electronic equipment comprises a transceiver and the communication antenna, and the communication antenna is connected with the transceiver. The communication antenna comprises a radiation unit, a guiding structure and a guiding structure, wherein the radiation unit is connected with the handheld communication device and is used for transmitting a first