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R&D of Installation Structure for Ultra Short Wave High Precision Directional Instrument

2021-12-29 00:00:00

The ultra short wave directional instrument can continuously track and directional radio signals, and provide relevant directional information. The directional antenna receives radio frequency signals transmitted from a certain direction in space, which are modulated by the directional antenna and processed by the directional device to output azimuth angle signals that meet the requirements. These signals are sent to the integrated control display device and flight instruments, etc. for display. During the installation process of the directional device, an ultra short wave high-precision directional device installation structure is often used.

The existing installation structure is prone to sliding feet during use, which can cause the equipment  to tilt and affect its use. Moreover, due to the large volume of the equipment, it is not easy to store and carry, which affects the effectiveness of use. Therefore, Rich Full Joy proposed the R&D of the installation structure of ultra short wave high-precision directional instrument to solve existing technical problems.

An installation structure for ultra short wave high precision directional instrument 17352515插图_00.jpg

An installation structure for ultra short wave high precision directional instrument 17352515插图_01.jpg

Rich Full Joy Technical Solution

1.By sliding the support plate downwards and connecting the limit pin to the inside of the convex ring, one end of the support plate can be fixed, and then the nail teeth can be fixed on the ground by stepping on the support plate, achieving the fixing function.

2.The lower end of the main body of this project is equipped with pillars for supporting the main body. The outer sliding connection of the pillars is equipped with support feet that can quickly complete storage. The lower end of the support feet is equipped with a support plate to prevent equipment tilting. One side of the pillar is equipped with a fixed sleeve for adjusting the position of the support feet. The outer side of the lower end of the pillar is equipped with a slide for limiting the support feet. The two sides of the slide are connected by a limit bolt for fixing the support feet.

3.The internal fixed connection of the support feet is equipped with a slider that is used to slide and connect to the inner part of the fixed sleeve to drive the movement of the support feet. A convex ring is set above one end of the support plate to connect the support plate with the support feet.

4. The lower ends of the support legs are fixedly connected to fixed plates on both sides, and the internal part of the fixed plate is equipped with limit pins for limiting the support plate.

5. A support rod is fixedly connected above one end of the support plate to connect the convex ring with the support plate, and a nail tooth is set at the lower end of the support plate to sink into the ground and fix the support plate, achieving the improvement of the stability performance of the support foot.

Rich Full Joy Innovative Points

1.Adopting a multi-point fixation method to increase the stability and accuracy of the instrument. By setting multiple support seats at the bottom of the instrument, the instrument can be stably fixed on the ground or other supports, reducing the impact of external vibration on the measurement results.

2.This project adjusts the height of the main body by sliding and connecting the slider to the inside of the fixed sleeve, and further rotating the limit bolt to compress the rubber at the bottom can increase the friction resistance between the support foot and the limit bolt, clamping and fixing the support foot. The operation is simple and fast, and the support foot storage is easy to carry and use.

3.This project has undergone seismic design to reduce the interference of external vibrations on the instrument. By using shock-absorbing materials or devices, the impact of earthquakes, wind or other vibrations on the instrument can be effectively reduced, and the stability and accuracy of the instrument can be improved.

4.This project has fast installation and disassembly performance. By using quick locking devices or quick connecting devices, instruments can be quickly installed and disassembled, improving work efficiency.

Issues addressed by Rich Full Joy

1.Solvedthe problem of the connection method between the installation structure and the orientation device, ensuring that the installation is firm and there is no looseness.

2.Solvedthe problems of poor sealing and easy water ingress or dust in the existing directional instrument installation structure.

3.Solvedthe problem of the protective design of the installation structure to ensure that the equipment can work normally in harsh environments.

4.Achieved high precision and stability, which can meet the needs of users for precise positioning and measurement of directional instruments.

5.Achieveda perfect match between the installation structure and the orientation device, ensuring a firm and stable installation that can work normally under various environmental conditions.

6.Improvedthe durability and reliability of the installation structureto extend the service life of the orientation device, and reduce maintenance and replacement costs.