Installation specifications and importance of in-vault radar mounts

1. Selection of installation location of in-vault radar mounts
The installation location of in-vault radar mounts is the basis for ensuring the effectiveness of the monitoring system. Ideally, the radar bracket should be installed in a relatively open and unobstructed location in the safe. This requirement is mainly based on the following considerations:

Openness of vision: An open location can ensure that radar waves can cover the entire monitoring area without obstacles after launch, reduce blind spots, and improve the accuracy and comprehensiveness of monitoring.
Avoid interference: When radar waves encounter obstacles such as metal and large objects, they will be reflected or absorbed, affecting the signal strength and accuracy. Therefore, choosing an unobstructed location can effectively avoid such interference and ensure the quality of radar signals.
Suitable height: The installation height of the bracket is also one of the key factors. Too high may cause signal attenuation when the radar wave covers downward, and too low may cause interference due to ground reflection. Generally, depending on the radar model and the specific layout of the safe, it is crucial to choose a height that can ensure comprehensive coverage and avoid interference from ground reflections.
2. Installation method of radar bracket in the vault
In addition to the location selection, the installation method of the radar bracket should not be ignored. It is directly related to the stability of the radar system and the reliability of long-term operation.

Firmness: The radar bracket must be made of sturdy and durable materials and firmly installed on the wall or ceiling by professional means (such as expansion screws, welding, etc.). Ensuring that the bracket will not shake or move under any circumstances is the basis for ensuring the stability of the radar signal.
Anti-seismic design: Considering the external vibration factors that the vault may face (such as earthquakes, operation of large equipment, etc.), anti-seismic elements should be incorporated into the bracket design, such as using elastic connectors, adding fixing points, etc., to reduce the impact of vibration on the radar operation.
Adjustment flexibility: Although the installation location needs to be carefully planned, in actual operation, in order to further optimize the monitoring effect, the bracket should have a certain adjustment flexibility, such as horizontal rotation, pitch angle adjustment, etc., so as to facilitate the subsequent fine-tuning of the radar monitoring range according to actual needs.
Safety maintenance: During the installation process, the convenience of maintaining the radar system in the future should also be considered. For example, leave enough space for technicians to conduct regular inspections, cleaning or replacement of components, while ensuring that all cable connections are secure and neat to avoid becoming a safety hazard.