DE202023105991U1 - Portable antenna for communications satellites - Google Patents

Abstract

Portable antenna for communication satellites, comprising a main body (1), a connecting rod (2), a parabolic antenna (3), an angle adjustment component (4) and a support component (5),
wherein the main body (1) is provided with a first groove (11) and a second groove (12), the first groove (11) being connected to the second groove (12), the first end of the connecting rod (2). the underside of the first groove (11), the second end of the connecting rod (2) being hinged to the rotating shaft (31) of the parabolic antenna (3), the second end of the connecting rod (2) being provided with an angle adjustment component (4). is installed in a third groove (21), the angle adjustment component (4) being connected to the rotary shaft (31) to adjust the angle of the parabolic antenna (3), the second groove (12) being connected to the bottom of the parabolic antenna (3) can cooperate to play a storage role, wherein the parabolic antenna (3) is hinged with a first movable rod (32), the top of the first movable rod (32) being provided with a collapse source (33), the middle section of the connecting rod (2) is provided with a fourth groove (22),
wherein the support component (5) comprises a support rod (51) and a clamping groove plate (52) installed at the bottom of the first groove (11), the first end of the support rod (51) hinges on the side wall of the fourth groove (22). is, wherein the clamping groove plate (52) is provided with a plurality of first clamping grooves (521) and a plurality of second clamping grooves (522), the second end of the support rod (51) being provided with a clamping block (511) which is provided with the first clamping grooves (521 ) or the second clamping grooves (522) can be connected in a clamping manner.

Description

TECHNICAL FIELD

This utility model relates to the field of satellite communication technology, in particular a portable antenna for communication satellites.

STATE OF THE ART

Satellite communication refers to the installation of a specific power amplifier on a satellite, which processes the sound or television broadcast signal sent from the ground and sends it to another location to achieve communication between two or more places. This type of communication can transmit telephone, radio and television programs.

In the existing technology, a portable satellite antenna for the Chinese utility model with the public number CN210167491U disclosed. It includes an antenna surface, a collapse source, an antenna back frame, a collapse source support rod, a pitch rotation mechanism, an azimuth rotation mechanism and a support leg. The antenna surface is fixed on the antenna back frame, the antenna back frame is fixed on the rotating shaft, and the rotating shaft passes through the through holes of the left and right support plates. The portable satellite antenna of this utility model achieves miniaturization and lightness of the portable satellite antenna and is foldable collectible without the need for on-site assembly when in use for quick and convenient expansion. The structural design is simple and easy to manufacture with carbon fiber composite materials. It is lightweight, small in size after folding and storage, and can be carried in a bag. The above technical solution uses a folding method to reduce the size of the antenna and make it easy to carry. This method is one of the common wearing methods in existing technology. During the folding process of the antenna, it is not possible to completely store the different corners of the antenna, and even after it is loaded into a backpack, it is still easy to cause compression, causing damage to the antenna, which is not conducive to that Carrying the antenna is.

CONTENT OF THIS USER MODEL

• Eine tragbare Antenne für Kommunikationssatelliten, umfassend einen Hauptkörper, eine Pleuelstange, eine Parabolantenne, eine Winkeleinstellungskomponente und eine Stützkomponente. Der Hauptkörper ist mit einer ersten Nut und einer zweiten Nut versehen, die erste Nut ist mit der zweiten Nut verbunden. Das erste Ende der Pleuelstange ist an der Unterseite der ersten Nut scharniert, das zweite Ende der Pleuelstange ist mit der Drehwelle der Parabolantenne scharniert. Das zweite Ende der Pleuelstange ist mit einer Winkeleinstellungskomponente versehen, die in einer dritten Nut installiert ist. Die Winkeleinstellungskomponente ist mit der Drehwelle verbunden, um den Winkel der Parabolantenne einzustellen. Die zweite Nut kann mit dem Boden der Parabolantenne zusammenarbeiten, um eine Speicherrolle zu spielen. Die Parabolantenne ist mit einer ersten beweglichen Stange scharniert, und die Oberseite der ersten beweglichen Stange ist mit einer Kollapsquelle versehen. Der mittlere Abschnitt der Pleuelstange ist mit einer vierten Nut versehen.

The purpose of this utility model is to provide a portable antenna for communications satellites. The antenna can store connecting rods, parabolic antennas, angle adjustment components and support components through the first and second grooves on the main body, effectively avoiding collision damage between various components of the antenna during transportation. In order to achieve the above technical features, this utility model is achieved by:

• A portable antenna for communications satellites, comprising a main body, a connecting rod, a parabolic antenna, an angle adjustment component and a support component. The main body is provided with a first groove and a second groove, the first groove is connected to the second groove. The first end of the connecting rod is hinged to the bottom of the first groove, the second end of the connecting rod is hinged to the rotating shaft of the parabolic antenna. The second end of the connecting rod is provided with an angle adjustment component installed in a third groove. The angle adjustment component is connected to the rotating shaft to adjust the angle of the parabolic antenna. The second groove can cooperate with the bottom of the parabolic antenna to play a storage role. The parabolic antenna is hinged with a first movable rod, and the top of the first movable rod is provided with a collapse source. The middle section of the connecting rod is provided with a fourth groove.

The support component includes a support rod and a clamping groove plate installed at the bottom of the first groove. The first end of the support rod is hinged on the side wall of the fourth groove, the clamping clamping groove plate is provided with a plurality of first clamping grooves and a plurality of second clamping grooves. The second end of the support rod is provided with a clamping block which can be clampingly connected to the first clamping groove or the second clamping groove.

The angle adjustment component includes an installation box in which a worm and a worm gear are installed, the worm gear is at the same time engaged with the worm and the tooth groove of the rotating shaft. The outside of the installation box is equipped with a drive handle that is connected to the auger.

The bottom of the main body is provided with a base, and several movable wheels are installed on the bottom of the base. The top of the base is provided with a first end hole, the main body is provided with a second end hole. The pin is matched with the first end hole and the second end hole to complete the attachment of the main body and base.

The top of the first groove is hinged with a second movable rod. The top of the main body is provided with a projection near the first groove, and a second movable rod is hinged on the projection.

The top of the main body is provided with a locking member to secure the folded second movable rod.

• Das Gebrauchsmuster kann die Pleuelstange und die Parabolantenne durch die ersten und zweiten Nuten auf dem Hauptkörper speichern, und die erste bewegliche Stange kann in das Innere der Parabolantenne gefaltet werden. Schließlich wird die erste bewegliche Stange begrenzt, indem die zweite bewegliche Stange gefaltet wird, so dass die Pleuelstange, die Parabolantenne, die Winkeleinstellungskomponente und die Stützkomponente alle in den Hauptkörper integriert sind, wodurch Kollisionsschäden zwischen verschiedenen Komponenten der Antenne während des Transports vermieden werden. Zweitens können die beweglichen Räder auf der Basis den Hauptkörper bewegen, verbessern die Flexibilität des Hauptkörpers und machen die Antenne einfacher zu tragen und zu transportieren. Die Winkeleinstellungskomponente in der dritten Nut umfasst ein Schneckengetriebe und eine Schnecke, die die Drehwelle zum Drehen antreiben, um die Winkeleinstellung der Parabolantenne zu erreichen. Diese Struktur erreicht nicht nur die Winkeleinstellung, sondern erleichtert auch die Lagerung.

This utility model has the following positive effects:

• The utility model can store the connecting rod and the parabolic antenna through the first and second grooves on the main body, and the first movable rod can be folded into the interior of the parabolic antenna. Finally, the first movable rod is limited by folding the second movable rod, so that the connecting rod, the parabolic antenna, the angle adjustment component and the support component are all integrated into the main body, thereby avoiding collision damage between various components of the antenna during transportation. Secondly, the movable wheels on the base can move the main body, improving the flexibility of the main body and making the antenna easier to carry and transport. The angle adjustment component in the third groove includes a worm gear and a worm that drive the rotating shaft to rotate to achieve the angle adjustment of the parabolic antenna. This structure not only achieves angle adjustment but also facilitates storage.

BRIEF DESCRIPTION OF THE DRAWINGS

• 1 ist ein schematisches Diagramm des gefalteten Zustandes der Antenne, die durch ein Ausführungsbeispiel dieses Gebrauchsmusters bereitgestellt ist.
• 2 ist ein schematisches Diagramm des Betriebszustands der Antenne, die durch ein Ausführungsbeispiel dieses Gebrauchsmusters bereitgestellt ist.
• 3 ist ein schematisches Diagramm der Verbindungsstruktur zwischen der Winkeleinstellungskomponente und der Drehwelle, die durch ein Ausführungsbeispiel dieses Gebrauchsmusters bereitgestellt sind.
• 4 ist ein schematisches Diagramm der Verbindungsstruktur zwischen dem Hauptkörper und der Basis, die durch ein Ausführungsbeispiel dieses Gebrauchsmusters bereitgestellt sind.
• 5 ist ein schematisches Diagramm der Hauptstruktur, die durch ein Ausführungsbeispiel dieses Gebrauchsmusters bereitgestellt ist.
• 6 ist ein schematisches Diagramm der Pleuelstangenstruktur, die durch ein Ausführungsbeispiel dieses Gebrauchsmusters bereitgestellt ist.
• 7 ist ein schematisches Diagramm der Verbindungsstruktur zwischen der Pleuelstange und der Stützkomponente, die durch ein Ausführungsbeispiel dieses Gebrauchsmusters bereitgestellt sind.

Below you will find a further explanation of the utility model in conjunction with the attached drawings and exemplary embodiments.

• 1 is a schematic diagram of the folded state of the antenna provided by an embodiment of this utility model.
• 2 is a schematic diagram of the operating state of the antenna provided by an embodiment of this utility model.
• 3 is a schematic diagram of the connection structure between the angle adjustment component and the rotation shaft provided by an embodiment of this utility model.
• 4 is a schematic diagram of the connection structure between the main body and the base provided by an embodiment of this utility model.
• 5 is a schematic diagram of the main structure provided by an embodiment of this utility model.
• 6 is a schematic diagram of the connecting rod structure provided by an embodiment of this utility model.
• 7 is a schematic diagram of the connection structure between the connecting rod and the support component provided by an embodiment of this utility model.

Reference numerals: main body 1, connecting rod 2, parabolic antenna 3, angle adjustment component 4, support component 5, base 6, pin 7, second movable rod 8, locking member 9, first groove 11, second groove 12, second end hole 13, projection 14, third groove 21, fourth groove 22, rotating shaft 31, first movable rod 32, collapse source 33, installation box 41, worm 42, worm gear 43, drive handle 44, support rod 51, clamping groove plate 52, movable wheel 61, first end hole 62, clamping block 511, first clamping groove 521, second clamping groove 522.

DETAILED DESCRIPTION

Below you will find a further explanation of the embodiment of this utility model in conjunction with the attached drawings.

According to 1-7 , a portable antenna for communication satellites includes a main body 1, a connecting rod 2, a parabolic antenna 3, an angle adjustment component 4 and a support component 5. The main body 1 is provided with a first groove 11 and a second groove 12, the first groove 11 is provided with the second groove 12 connected. The first end of the connecting rod 2 is hinged to the underside of the first groove 11, the second end of the connecting rod 2 is hinged to the rotating shaft 31 of the parabolic antenna 3. An angle adjustment component 4 is installed in the third groove 21 at the second end of the connecting rod 2. The angle adjustment component 4 is connected to the rotating shaft 31 to achieve the angle adjustment of the parabolic antenna 3. The second groove 12 can adapt to the underside of the parabolic antenna 3 and plays a storage role for the parabolic antenna 3. The parabolic antenna 3 is hinged with a first movable rod 32, the top of the first movable rod 32 is with a collapse source 33 Mistake. The middle section of the connecting rod 2 is provided with a fourth groove 22. The support component 5 includes a support rod 51 and a clamping groove plate 52 installed at the bottom of the first groove 11. The first end of the support rod 51 is hinged in the fourth groove 22. The clamping groove plate 52 is provided with a plurality of first clamping grooves 521 and a plurality of second clamping grooves 522. The second end of the support rod 51 is provided with a clamping block 511, which can be clampingly connected to the first clamping grooves 521 or the second clamping grooves 522. During operation, the clamping block 511 can adjust the elevation angle and the height of the support rod 51 by clamping with the first clamping grooves 521 or the second clamping grooves 522 at different positions. Therefore, the first groove 11 and the second groove 12 on the main body 1 can be used to store the connecting rod 2, the parabolic antenna 3, the angle adjustment component 4 and the support component 5.

The angle adjustment component 4 includes an installation box 41, which is provided inside with a worm 42 and a worm gear 43. The worm gear 43 is simultaneously engaged with the toothed grooves 311 on the worm 42 and the rotary shaft 31. The installation box 41 is externally mounted on a drive handle 44 connected to the worm 42, which can drive the rotary shaft 31 to achieve the angular adjustment of the parabolic antenna 3.

The bottom of the main body 1 is provided with a base 6, and a plurality of movable wheels 61 are installed on the bottom of the base 6. The top of the base 6 is provided with a first end hole 62, the main body 1 is provided with a second end hole 13. The pin 7 is matched with the first end hole 62 and the second end hole 13 to complete the attachment of the main body 1 and the base 6.

Furthermore, the top of the main body 1 is provided with a projection 14 near the first groove 11, a second movable rod 8 is hinged on the projection 14. By folding the second movable rod 8, the first movable rod 32 and the parabolic antenna 3 can be limited.

Furthermore, the top of the main body 1 is provided with a locking member 9 for fixing the folded second movable rod 8.

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• CN 210167491 U [0003]

Claims (5)

Portable antenna for communication satellites, comprising a main body (1), a connecting rod (2), a parabolic antenna (3), an angle adjustment component (4) and a support component (5), wherein the main body (1) is provided with a first groove (11) and a second groove (12), the first groove (11) being connected to the second groove (12), the first end of the connecting rod (2). the underside of the first groove (11), the second end of the connecting rod (2) being hinged to the rotating shaft (31) of the parabolic antenna (3), the second end of the connecting rod (2) being provided with an angle adjustment component (4). is installed in a third groove (21), the angle adjustment component (4) being connected to the rotary shaft (31) to adjust the angle of the parabolic antenna (3), the second groove (12) being connected to the bottom of the parabolic antenna (3) can cooperate to play a storage role, wherein the parabolic antenna (3) is hinged with a first movable rod (32), the top of the first movable rod (32) being provided with a collapse source (33), the middle section of the connecting rod (2) is provided with a fourth groove (22), wherein the support component (5) comprises a support rod (51) and a clamping groove plate (52) installed at the bottom of the first groove (11), the first end of the support rod (51) hinges on the side wall of the fourth groove (22). is, wherein the clamping groove plate (52) is provided with a plurality of first clamping grooves (521) and a plurality of second clamping grooves (522), the second end of the support rod (51) being provided with a clamping block (511) which is provided with the first clamping grooves (521 ) or the second clamping grooves (522) can be connected in a clamping manner. Portable antenna for communications satellites Claim 1 , characterized in that the angle adjustment component (4) comprises an installation box (41) in which a worm (42) and a worm gear (43) are installed, the worm gear (43) being simultaneously with the worm (42) and the toothed groove ( 311) of the rotating shaft (31) is engaged, the outside of the installation box (41) being provided with a drive handle (44) which is connected to the worm (42). Portable antenna for communications satellites Claim 1 , characterized in that the bottom of the main body (1) is provided with a base (6), a plurality of movable wheels (61) are installed on the bottom of the base (6), the top of the base (6) having a first end hole ( 62), wherein the main body (1) is provided with a second end hole (13), the pin (7) being matched with the first end hole (62) and the second end hole (13) to facilitate the attachment of the main body (13). 1) and the base (6). A portable antenna for communications satellites Claim 1 , characterized in that the top of the main body (1) is provided with a projection (14) near the first groove (11), a second movable rod (8) being hinged on the projection (14). Portable antenna for communications satellites Claim 4 , characterized in that the top of the main body (1) is provided with a locking element (9) to fix the folded second movable rod (8).

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