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CN-224218398-U - Anti-interference communication transmission equipment

CN224218398UCN 224218398 UCN224218398 UCN 224218398UCN-224218398-U

Abstract

The utility model relates to the field of communication equipment, in particular to anti-interference communication transmission equipment. The utility model comprises a shielding shell, a plurality of interfaces, a data connector, a shielding layer and a partition board, wherein the shielding shell comprises an outer layer, a middle layer and an inner layer, the outer layer is sleeved on the inner side, the middle layer is positioned between the inner layer and the outer layer, the interfaces are arranged on one side of the shielding shell, the data connector is spliced on any one of the interfaces, the shielding layer is sleeved on the cable outer layer of the data connector, the partition board is arranged in an inner accommodating space of the shielding shell, the partition board divides the shielding shell into a power supply area, a signal processing area and a transmission area, the power supply area is communicated with the interfaces, and the signal processing area and the transmission area are both positioned on one side of the power supply area.

Inventors

  • JIANG QIANG

Assignees

  • 深圳中仁通信有限公司

Dates

Publication Date
20260508
Application Date
20250418

Claims (7)

  1. 1. An anti-interference communication transmission device, comprising: The shielding shell (1), wherein the shielding shell (1) comprises an outer layer (101), a middle layer (102) and an inner layer (103), the outer layer (101) is sleeved on the inner layer (103), and the middle layer (102) is positioned between the inner layer (103) and the outer layer (101); a plurality of interfaces (2), wherein the interfaces (2) are arranged on one side of the shielding shell (1); The data connector (3) is inserted into any one of the plurality of interfaces (2); the shielding layer (4) is sleeved on the cable outer layer (101) of the data connector (3); Partition baffle (5), partition baffle (5) set up in the inside accommodation space of shielding shell (1), partition baffle (5) will shielding shell (1) is separated into power district (501), signal processing district (502) and transmission district (503), power district (501) with a plurality of interfaces (2) intercommunication, signal processing district (502) with transmission district (503) all are located one side of power district (501).
  2. 2. The tamper-resistant communication transmission device of claim 1, further comprising: A directional antenna (6), wherein the directional antenna (6) is arranged on one side of the shielding shell (1), and the directional antenna (6) is a spiral metal rod; The radiating fins (7) are arranged on the shielding shell (1), and the radiating fins (7) are positioned above the signal processing area (502); A metal separator (8), wherein the metal separator (8) is positioned in the power supply area (501), and the metal separator (8) covers a storage battery in the power supply area (501); -an encoding processor (9), the encoding processor (9) being located within the signal processing region (502), the encoding processor (9) being located below the heat sink fins (7); -a transfer plate (10), said transfer plate (10) being located within said transfer zone (503).
  3. 3. An anti-interference communication transmission device according to claim 2, characterized in that said heat sink fins (7) further comprise: The heat dissipation holes (71), wherein the heat dissipation holes (71) are strip-shaped holes, and the heat dissipation holes (71) are arranged side by side; A shielding fin (72), wherein the shielding fin (72) is annular, and the shielding fin (72) is wrapped on the periphery of all the radiating holes (71); and the two ends of the metal strip wire (73) are connected with the annular fins of the shielding fins (72).
  4. 4. An anti-interference communication transmission device according to claim 2, characterized in that the transmission plate (10) is electrically connected to the directional antenna (6).
  5. 5. An anti-interference communication transmission apparatus according to claim 2, characterized in that the outer layer (101) is made of a metal alloy material.
  6. 6. An anti-interference communication transmission device according to claim 1, characterized in that the inner layer (103) is an iron-nickel alloy.
  7. 7. An anti-interference communication transmission device according to claim 1, characterized in that the middle layer (102) is a wave-absorbing material.

Description

Anti-interference communication transmission equipment Technical Field The utility model relates to the field of communication equipment, in particular to anti-interference communication transmission equipment. Background A communication device is an electronic device for transmitting, receiving, converting and processing signals to effect information transfer and exchange. They are widely used in various communication systems such as wireless communication, optical fiber communication, satellite communication, the internet, etc. The core function of the communication device is to ensure efficient transmission of signals and to minimize interference and signal distortion. The communication equipment has the main functions of transmitting information and data through different technical means and media, so that people can communicate in real time, remotely communicate and share information. They play an important role in daily life and various industries, and communication devices enable people to quickly and conveniently transfer information, whether voice, text, video or data, between different places. Common devices such as cell phones, telephones, fax machines, etc., all support direct person-to-person communication. In the working environment, communication equipment such as emails, instant messaging software, video conference systems and the like are beneficial to improving the collaboration and communication efficiency among teams and avoiding information lag or misunderstanding. However, the following problems are often encountered in the prior art in use: (1) Conventional external electromagnetic interference signals are typically derived from various electronic devices, communication base stations, power lines, radio frequencies, etc., which when propagated in the environment, enter the communication device at different frequencies, intensities and modes. When these external interfering signals meet the received signal of the device, signal overlapping, distortion or frequency aliasing may occur, and in severe cases, data loss, communication interruption or device failure may occur. These disturbances not only affect the quality of the communication, but also lead to delays and instabilities in the information transmission, which in turn affect the overall performance and reliability of the device. (2) The power supply noise and the signal interference also interact to form a negative effect of "mutual reinforcement". In some devices, the power supply system may generate high frequency noise or transient voltages that are transmitted through the power supply line or ground system into the signal processing portion of the device. At the same time, the signal paths of the device are also subject to electromagnetic interference from other electronic components or modules. These power supply noise and signal interference are interleaved with each other, which can exacerbate the signal loss and reduce the anti-interference capability of the system, thereby resulting in reduced device performance and even unstable and erroneous transmission of the communication link, affecting the end user experience. Disclosure of utility model The main object of the present utility model is to provide an anti-interference communication transmission device, which solves at least one of the above problems to some extent. In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: An anti-interference communication transmission device, comprising: The shielding shell comprises an outer layer, a middle layer and an inner layer, wherein the outer layer is sleeved on the inner side, and the middle layer is positioned between the inner layer and the outer layer; the interfaces are arranged on one side of the shielding shell; The data connector is spliced with any one of the interfaces; The shielding layer is sleeved on the cable outer layer of the data connector; The partition plate is arranged in the inner accommodating space of the shielding shell, the partition plate divides the shielding shell into a power supply area, a signal processing area and a transmission area, the power supply area is communicated with the interfaces, and the signal processing area and the transmission area are both positioned on one side of the power supply area. Further comprises: The directional antenna is arranged on one side of the shielding shell and is a spiral metal rod; The radiating fins are arranged on the shielding shell and are positioned above the signal processing area; The metal separator is positioned in the power supply area and covers the storage battery in the power supply area; The encoding processor is positioned in the signal processing area and is positioned below the radiating fins; And the transmission plate is positioned in the transmission area. The heat radiation fin further comprises: the heat dissipation holes are strip-shaped holes and are arranged side by side; The shield