RU169807U1 - Disclosed annular antenna array with automatic disclosure drive - Google Patents

Abstract

The disclosed annular antenna array (CAR) relates to the field of microwave technology and can be used in radio systems, including radio communication systems, radar and radio navigation, including wearable and portable options. The technical result consists in automating the transfer of the CAR from the transportation state to the working one and the possibility of controlling disclosure without the use of manual operations. The disclosed CAR consists of a central AE mounted on the base, and AE CAR installed on double levers. A locking device is located on the central AE to ensure that the double levers of the AE KAR are in a transport state. At the base there are levers and springs designed to translate the disclosed CAR in working condition, as well as limit switches. The double levers are equipped with adjusting screws and latches. 2 ill.

Description

The utility model relates to antenna-feeder devices and can be used in mobile systems of radio communication, radar and radio navigation, including wearable and transportable options. In many cases, such antennas should provide an overview of the space in azimuth in the sector of angles from 0 ° to 360 °, which is achieved using circular antenna arrays (CAR).

When basing KAR of radio engineering systems, including radio communication systems, radar and radio navigation on mobile and hard-to-reach objects, an important requirement for KAR is the presence of two states - working (open) and transport (folded). In this case, one of the requirements for the antenna in such cases is the ability to quickly deploy the antenna with automatic transfer from the transport state to the working state and control of the transfer to the operational state of the CAR.

Known variants of mobile annular antenna arrays, as a rule, are based on collapsible or manually foldable structures, such as the ARK-MP4 antenna-radio receiver unit [1 - Rembovsky A.M., Ashikhmin A.V., Kozmin V.A. Radio monitoring - tasks, methods, tools / Ed. A.M. Rembovsky, 2nd ed., Rev. and add. - M .: Hot line - Telecom, 2010, 624 p.], P. 349, antenna system "Article-P11" [1], p. 356. However, when placing such antennas in hard-to-reach places and on a vehicle, their deployment is a time-consuming and time-consuming operation. These shortcomings do not allow the use of CARs of the indicated types in cases where it is necessary to ensure the rapid deployment of the antenna without performing manual operations.

In [1], fig. P10 was examined by the ARTICLE-P folding automatic direction finder CAR, the closest in combination of essential features, which was adopted as a prototype. The prototype is a CAR, the antenna elements (AE) of which are mounted on folding traverses. Translation of the CAR into operation occurs by turning the antenna traverse 90 °, until fixation on the base of the block. Thus, the prototype is characterized by the same disadvantages associated with the need for manual disclosure of KAR when transferring from a transportation state to a working one.

The objective of the present utility model is the development of a disclosed CAR with an automatic disclosure drive, in which, when transferred from a transportation state to an operational state, automatic disclosure and implementation of disclosure control without the use of manual operations are provided.

To solve this problem, a disclosed CAR with an automatic disclosure drive is proposed, consisting of antenna elements mounted on double levers pivotally mounted on the base of the central antenna element.

According to the utility model, a locking device mounted on the central antenna element is additionally introduced, which ensures that the double levers of the antenna elements are kept in a transport state, a lever and springs, which enable the antenna elements of the disclosed CAR to be brought into operation, limit switches, which provide the formation of a signal indicating the translation of the disclosed CAR in working condition, adjusting screws mounted on double levers, latches for fixing the antenna elements of the opened number tsevoy array in working order.

The technical result consists in automating the transfer of the CAR from the transportation to the operational state and the possibility of controlling disclosure without the use of manual operations.

The combination of distinguishing features and properties of the proposed disclosed CAR from the available literature is unknown, therefore, it meets the criterion of "novelty."

In FIG. 1 shows the inventive disclosed CAR with an automatic disclosure drive in transport and operating conditions, FIG. 2 - presents the design of the CAR, taken as a prototype.

The inventive disclosed CAR shown in FIG. 1, consists of a central AE 1, mounted on a base 3, AE 5 mounted on double levers 4 using hinges 10. A central locking device 2 is located on the central AE 1 to hold the double levers 4 of AE 5 in a transport state. At the base 3, with the help of hinges 9, double levers 4 and springs 8 according to the number of AE 5, springs 7, designed to translate the disclosed CAR from the transport to operational state, a lever 6 designed to hold the central AE 1 during the transport state of the CAR, and limit switches are installed 13 by the number of AE 5, intended for the formation of a signal indicating the transfer of the disclosed CAR into operation. The double levers 4 also have adjusting screws 11 for adjusting the position of the AE 5 in the working state, and latches 12 for fixing the AE 5 in the working state.

The device operates as follows: the transport state of the disclosed CAR is ensured by the presence of a holding force F on the lever 6, while the central AE 1 is raised, and the locking device 2 holds the double levers 4 of the AE 5 in the transport state. After removing the holding force F from the lever 6, the central AE 1 falls under the action of the springs 7, the locking device 2 releases the double levers 4, which, under the action of the springs 8, are rotated on the hinges 9 against the stop with the adjusting screws 11 into the base 3 and are fixed with latches 12 in working condition which causes the operation of the limit switches 13, which give a signal to transfer the AE 5 of the disclosed CAR, turning on the hinges 10, in working condition.

The prototype (Fig. 2) is a KAR in the form of a folding structure containing a central antenna element, a device for fixing the AE KAR traverses in a folded state, a bearing axle, AE KAR, expansion rods, a device for fixing the AE KAR traverses in a deployed state, input channel converter unit cooling, the base of the converter unit housing, the lower beam, the upper beam. A detailed description of the construction is given in 2. - Ashikhmin A.V., Kozmin V.A., Korovin A.G., Rembovsky A.M. Distributed Radio Monitoring and Direction Finding Systems // Special Technique. 2006. No 5. URL: http://www.ess.ru.

The implementation of the constituent elements of the disclosed CAR with an automatic disclosure drive has no fundamental difficulties. The foregoing confirms compliance with the criterion of "industrial applicability" of the proposed technical solution.

Claims (1)

A disclosed annular antenna array with an automatic opening drive, consisting of antenna elements mounted on double levers pivotally mounted on the base of the central antenna element, characterized in that a locking device is additionally introduced into the disclosed ring antenna array mounted on the central antenna element with the possibility of holding the double levers of the antenna elements in the transport state, levers and springs with the ability to translate the antenna elements open aemoy annular array in the operating state, the limit switches to generate a signal indicating the translation annular array disclosed in the operating state, the adjustment screws mounted on the double levers, latches with locking ring disclosed antenna elements of the antenna array in working condition.

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