CN117167616A - Steering device of satellite signal receiver - Google Patents

Abstract

The application relates to the technical field of satellites, in particular to a steering device of a satellite signal transceiver, which comprises a mounting frame and a mounting plate for mounting the signal transceiver, wherein a mounting block is arranged on the mounting frame, a placing groove is formed in the mounting block, a rotating plate is rotationally arranged in the placing groove, a connecting rod is arranged on the rotating plate and is connected with the mounting plate, a driving assembly is arranged on the mounting frame, and the driving assembly is connected with the rotating plate and is used for driving the mounting plate to rotate to different positions through the rotating plate. The application has the maximized effect of transmitting signals.

Description

Steering device of satellite signal receiver

Technical Field

The application relates to the technical field of satellites, in particular to a steering device of a satellite signal transceiver.

Background

Satellites are unmanned spacecraft that orbit the earth around its space and are launched by rockets or other vehicles into a predetermined orbit to orbit the earth or other planets for exploration or scientific research. According to the application, the satellite can be classified into scientific satellites, communication satellites, military satellites, meteorological satellites, resource satellites, interstellar satellites and the like.

The satellite communicates with a receiving station on the ground via a signal transceiver. The receiving station receives the signals sent by the satellites and converts the signals into electric signals to be sent to a computer for processing. Similarly, the receiving station converts the information to be transmitted into an electrical signal for transmission to the satellite, which is then forwarded by the satellite transmitter to the target site.

In the operation process of the satellite, the signal receiver of the satellite corresponds to the annunciator arranged on the ground so as to transmit the signal pieces, wherein the signal receiver of the satellite is opposite to the annunciator on the ground so as to maximally transmit the signals.

Disclosure of Invention

In order to maximize signal transmission, the present application provides a satellite signal transceiver steering apparatus.

The application provides a satellite signal transceiver steering device which adopts the following technical scheme:

satellite signal connects send out ware and turns to device, including the mounting bracket and be used for installing the mounting panel that signal connects the ware body, be provided with the installation piece on the mounting bracket, the standing groove has been seted up on the installation piece, the standing groove internal rotation is provided with the rotor plate, be provided with the connecting rod on the rotor plate, the connecting rod is connected with the mounting panel, be provided with drive assembly on the mounting bracket, drive assembly and rotor plate are connected and are used for driving the mounting panel through the rotor plate and rotate to different positions.

Through adopting above-mentioned technical scheme, the signal receiver body is installed on the mounting panel, and drive assembly drives the pivoted plate and rotates, and the pivoted plate rotates and drives the mounting panel and rotate along with it through the connecting rod, and then adjusts the angle of signal receiver body to it is just right with subaerial annunciator, and the biggest speaking transmits the signal.

Optionally, the rotor plate sets up to circularly, the drive tooth's socket has been seted up to the side circumference of rotor plate, drive assembly includes driving piece and drive gear, the driving piece sets up on the mounting bracket, drive gear sets up the output at the driving piece, drive gear and drive tooth's socket are connected.

Through adopting above-mentioned technical scheme, the driving piece drives the drive gear and rotates, and drive gear rotates and drives the rotation board through driving the tooth's socket and rotate, and then adjusts the position of mounting panel.

Optionally, the intermediate tank has been run through on the rotor plate, the intermediate tank sets up along the axis direction of perpendicular to rotor plate, the center setting of intermediate tank and rotor plate is on same straight line, the intermediate lever sets up in the intermediate tank rotation, the tip of intermediate lever extends to the outside and the connecting rod connection in intermediate tank, be provided with adjusting part on the installation piece, adjusting part and intermediate lever are connected and are used for driving the intermediate lever and rotate.

Through adopting above-mentioned technical scheme, adjusting part drives the intermediate lever and rotates, and the intermediate lever passes through the connecting rod and drives the mounting panel and rotate, and intermediate lever and pivoted board drive the mounting panel and rotate along different directions respectively to with the mounting panel rotation appointed angle.

Optionally, the mounting groove has been seted up with the intermediate tank intercommunication on the installation piece, adjusting assembly includes regulating part, regulation pole, adjusting gear and adjustment sleeve, the adjustment sleeve sets up along the direction towards the intermediate tank in the mounting groove, adjusting rack has been seted up along its length direction on the adjustment sleeve, auxiliary tooth's socket has been seted up to the outside circumference of intermediate lever, adjusting rack and auxiliary tooth's socket meshing, adjust pole and adjustment sleeve connection, adjusting the pole and having seted up along the slip direction of adjustment sleeve, the one end of adjusting the pole and deviating from the adjustment sleeve extends to the outside of mounting groove, the regulating part sets up on the mounting bracket, adjusting gear sets up the output at the regulating part, adjusting gear and adjusting tooth's socket meshing.

Through adopting above-mentioned technical scheme, the regulating part drives the regulation pole and slides in the mounting groove, drives the adjusting collar and slides when adjusting the pole is gliding, and the adjusting collar slides and drives the intermediate lever through adjusting the rack and rotate, and then drives the intermediate lever and rotate.

Optionally, the slip direction of adjustment sleeve and the center of rotor plate are on same straight line, set up the adjustment tank on the adjustment sleeve, the adjustment rack sets up on the adjustment tank inner wall, the adjustment sleeve is established outside the intermediate lever through the adjustment tank cover, the axis of rotation setting of adjustment pole and rotor plate is on same straight line, adjust pole and adjustment sleeve rotation connection, the adjustment sleeve is around the center rotation setting of adjusting the pole on adjusting the pole.

Through adopting above-mentioned technical scheme, set up the tip and the adjusting collar rotation of adjusting the pole and connect, when the pivoted panel is rotatory, the pivoted panel drives intermediate lever and adjusting collar and rotates thereupon, and accessible slip adjusting collar drives intermediate lever and rotates simultaneously after the pivoted panel stops the rotation, reduces the adjusting collar and appears interfering the rotatory phenomenon of pivoted panel.

Optionally, the installation piece sets up to the ball shape, the centre of sphere setting of rotor plate and installation piece is in the coplanar, the side of rotor plate and the side setting of installation piece are in same sphere, the center of rotor plate's rotation center and middle pole all coincides with the centre of sphere of installation piece, be provided with the stabilizer bar between mounting panel and the installation piece, stabilizer bar and mounting panel are connected, the stabilizer bar is carried away from one side of mounting panel and the side slip butt of installation piece.

Through adopting above-mentioned technical scheme, set up the stabilizer bar between mounting panel and installation piece, drive the different position butt on stabilizer bar and the installation piece when the mounting panel rotates, the stabilizer bar supports the mounting panel simultaneously, promotes the stability when the mounting panel rotates.

Optionally, the stabilizer plate sets up to be the arc, stabilizer plate inboard and installation piece side butt.

Through adopting above-mentioned technical scheme, set up the inboard of stabilizer plate and the side butt of installation piece, promote the area of contact between stabilizer plate and the installation piece, further promote the stability of mounting panel.

Optionally, the guide surface has been seted up to the edge that the stabilizer blade is close to installation piece one side, the edge of the inside one side of stabilizer blade is kept away from to the guide surface sets up along deviating from the direction slope of installation piece.

By adopting the technical scheme, the inclined guide surface is arranged at the edge of the stabilizing plate, and the stabilizing plate moves to the outside of the placing groove through the guide surface when moving, so that the stabilizing plate slides outside the mounting block.

Optionally, the output of driving piece is coaxial to be provided with the worm, be coaxial to be provided with the worm wheel on the drive gear, worm wheel and worm meshing.

Through adopting above-mentioned technical scheme, the driving piece drives the worm and rotates, and the worm rotates and drives the worm wheel and rotate, and the worm wheel rotates and drives drive gear and rotate, and then drives the rotor plate rotation, and worm wheel and worm cooperation have the auto-lock nature simultaneously, are adjusting the back to the position of rotor plate, reduce the rotor plate and appear the phenomenon of rotation, and then promote the stability of signal receiver body.

Optionally, the connecting rod is connected with the side of rotor plate, drive tooth's socket and connecting rod set up on the same side of rotor plate, drive tooth's socket place plane and connecting rod interval setting.

Through adopting above-mentioned technical scheme, set up drive tooth's socket and connecting rod interval setting, drive gear drives the rotor plate rotatory through drive tooth's socket, reduces the rotor plate and appears interfering rotor plate rotatory phenomenon at rotatory in-process connecting rod, promotes the stability when rotor plate rotates.

In summary, the application has the following beneficial technical effects: the driving piece drives the rotation plate to rotate, and then drives the angle of the signal receiver body on the mounting panel and adjusts, and accessible regulating part drives the adjusting collar and removes and drive the intermediate lever and rotate in addition, drives the mounting panel through intermediate lever and rotation plate respectively and rotates along different directions, and then is convenient for adjust the mounting panel to appointed angle, and the maximize is transmitted the signal.

Drawings

Fig. 1 is a schematic structural diagram of a steering device of a satellite signal transceiver according to an embodiment of the present application.

Fig. 2 is a structural view of a mounting block in a satellite signal transceiver steering apparatus according to an embodiment of the present application.

Fig. 3 is a structural view of an adjusting assembly in a steering device of a satellite signal transceiver according to an embodiment of the present application.

Fig. 4 is a structural view of the intermediate lever in the satellite signal transceiver steering apparatus according to the embodiment of the present application.

Fig. 5 is a structural view of an adjusting sleeve in a steering device of a satellite signal transceiver according to an embodiment of the present application.

Fig. 6 is a structural view of a stabilizer plate in a satellite signal transceiver steering apparatus according to an embodiment of the present application.

Reference numerals: 1. a mounting frame; 11. a mounting plate; 2. a mounting block; 21. a placement groove; 22. a mounting groove; 3. a rotating plate; 31. a connecting rod; 32. driving the tooth slot; 33. a middle groove; 34. an intermediate lever; 341. auxiliary tooth grooves; 4. a drive assembly; 41. a driving member; 42. a drive gear; 5. an adjustment assembly; 51. an adjusting member; 52. an adjusting rod; 521. adjusting tooth grooves; 53. an adjusting gear; 54. an adjusting sleeve; 541. an adjustment tank; 6. adjusting the rack; 7. a stabilizing plate; 71. a guide surface; 8. a rotating ring; 9. a limiting piece; 91. a worm wheel; 92. a worm.

Detailed Description

The application is described in further detail below with reference to fig. 1-6.

The application discloses a steering device of a satellite signal transceiver. Referring to fig. 1 and 2, the satellite signal receiver steering device comprises a mounting frame 1 and a mounting plate 11 arranged on the mounting frame 1 and used for mounting a signal receiver body, wherein a mounting block 2 is arranged on the mounting frame 1, a placing groove 21 is formed in the mounting block 2, a rotating plate 3 is rotationally arranged in the placing groove 21, a connecting rod 31 is arranged on the rotating plate 3, and one end of the connecting rod 31, deviating from the rotating plate 3, is connected with the mounting plate 11. A driving component 4 is arranged on the mounting frame 1, and the driving component 4 is connected with the rotating plate 3 to drive the rotating plate 3 to rotate. The driving component 4 drives the mounting plate 11 to rotate through the rotating plate 3 and the connecting rod 31, so that the signal receiver body is driven to rotate to different specified angles, the signal receiver body corresponds to the signal receiver body on the ground, and the maximized signal is transmitted.

Referring to fig. 2 and 3, the rotating plate 3 is provided in a circular shape, and driving tooth grooves 32 are formed in the circumferential direction of the side surface of the rotating plate 3. The driving assembly 4 includes a driving member 41 and a driving gear 42, the driving member 41 may be configured as a motor, the driving member 41 is disposed on the mounting frame 1, the driving gear 42 is disposed at an output end of the driving member 41, and the driving gear 42 is engaged with the driving tooth slot 32. The driving piece 41 drives the rotating plate 3 to rotate through the driving gear 42, and the rotating plate 3 rotates to drive the mounting plate 11 to rotate through the connecting rod 31, so that the angle of the signal transceiver body is adjusted.

Referring to fig. 2 and 3, the connection rod 31 is connected to the circular side of the rotation plate 3, and the driving spline 32 and the connection rod 31 are disposed on the rotation plate 3 on the adjacent sides thereof, and the driving spline 32 and the connection rod 31 are disposed on the rotation plate 3 at intervals along the axial direction of the rotation plate 3, i.e., the planes of the driving spline 32 and the connection rod 31 are disposed at intervals. The driving member 41 is disposed on a side of the driving spline 32 facing away from the connecting rod 31. When the driving piece 41 drives the connecting rod 31 to rotate through the driving gear 42, the phenomenon that the connecting rod 31 and the driving gear 42 interfere is reduced, and the stability of the connecting rod 31 during rotation is improved.

Referring to fig. 3 and 4, an intermediate groove 33 is penetratingly provided on the rotating plate 3, the intermediate groove 33 is provided in a direction perpendicular to an axis of the rotating plate 3, and rotation centers of the intermediate groove 33 and the rotating plate 3 are provided on the same line. An intermediate lever 34 is provided in the intermediate tank 33, the intermediate lever 34 is rotatably provided in the intermediate tank 33 around its own center line, the end of the intermediate lever 34 extends to the outside of the intermediate tank 33 and is connected to the connecting lever 31, the connecting lever 31 is provided in two, and the two connecting levers 31 are respectively connected to both ends of the intermediate lever 34. Referring to fig. 5, an adjusting assembly 5 is provided on the mounting block 2, and the adjusting assembly 5 is connected to the intermediate lever 34 to rotate the intermediate lever 34.

In the initial state, the driving piece 41 drives the rotating plate 3 to rotate through the driving gear 42 to drive the mounting plate 11 to rotate, then the adjusting component 5 can drive the middle rod 34 to rotate, the middle rod 34 drives the mounting plate 11 to rotate around the middle rod 34 through the connecting rod 31, namely, the two planes where the rotating plate 3 and the middle rod 34 drive the mounting plate 11 to rotate are mutually perpendicular, so that the mounting plate 11 is adjusted to a specified angle, and the position of the signal transceiver body is adjusted.

Referring to fig. 4 and 5, the mounting block 2 and the rotating plate 3 are each provided with a mounting groove 22, and the mounting groove 22 communicates with the intermediate groove 33. The adjusting assembly 5 comprises an adjusting piece 51, an adjusting rod 52, an adjusting gear 53 and an adjusting sleeve 54, wherein the adjusting sleeve 54 is arranged in the mounting groove 22 in a sliding mode along the direction perpendicular to the middle groove 33, the sliding direction of the adjusting sleeve 54 and the central position of the rotating plate 3 are on the same straight line, an adjusting groove 541 is formed in the adjusting sleeve 54, the adjusting sleeve 54 is sleeved outside the middle rod 34 through the adjusting groove 541, an adjusting rack 6 is formed in the side wall of the adjusting groove 541 along the length direction of the adjusting sleeve 54, auxiliary tooth grooves 341 are formed in the outer side circumference of the middle rod 34, the auxiliary tooth grooves 341 are arranged in the adjusting sleeve 54, the adjusting rack 6 is meshed with the auxiliary tooth grooves 341, the adjusting rod 52 is connected with the adjusting sleeve 54, one end of the adjusting rod 52, deviating from the adjusting sleeve 54, extends to the outside of the mounting groove 22, and the adjusting tooth grooves 521 are formed in the side surface of the adjusting rod 52 along the length direction of the adjusting sleeve 54. The adjusting member 51 may be provided as a motor, and the adjusting gear 53 is provided at an output end of the motor, and the adjusting gear 53 is engaged with the adjusting tooth groove 521.

Referring to fig. 4 and 5, the adjusting member 51 drives the adjusting rod 52 to move through the adjusting gear 53, the adjusting rod 52 drives the adjusting sleeve 54 to slide in the mounting groove 22, and the adjusting sleeve 54 drives the intermediate rod 34 to rotate through the adjusting rack 6 and the auxiliary tooth groove 341 when moving, so as to drive the mounting plate 11 to rotate in different directions.

Referring to fig. 4 and 5, the rotation axes of the adjustment lever 52 and the rotation plate 3 are disposed on the same line. The adjusting lever 52 is rotatably connected with the adjusting sleeve 54, and the rotation shaft of the adjusting sleeve 54 and the center line of the adjusting lever 52 are arranged on the same straight line. When the rotating plate 3 rotates to drive the mounting plate 11 to rotate, the adjusting sleeve 54 and the middle rod 34 rotate along with the rotating plate, and meanwhile, after the rotating plate 3 stops rotating, the adjusting sleeve 54 can slide to drive the middle rod 34 to rotate, so that the phenomenon that the adjusting sleeve 54 interferes with the rotating plate 3 to rotate is reduced.

Referring to fig. 2 and 6, the mounting block 2 is provided in a ball shape, and a side surface of the mounting frame is connected with the supporting frame, and the mounting groove 22 is provided at the center of the mounting block 2. The side surface of the rotating plate 3 and the side surface of the mounting block 2 are in the same spherical surface, the rotating center of the rotating plate 3 and the center of the intermediate rod 34 are coincident with the spherical center of the mounting block 2, and the adjusting rod 52 is arranged along the direction facing the spherical center of the mounting block 2. A stabilizer 7 is provided between the mounting plate 11 and the mounting block 2, the stabilizer 7 is provided in an arc shape, the outside of the stabilizer 7 is connected to the mounting plate 11, and the inside thereof is slidably abutted against the side surface of the mounting block 2. The stabilizing plate 7 is arranged between the two connecting rods 31. When the rotating plate 3 or the middle rod 34 drives the mounting plate 11 to rotate along different directions, the stabilizing plate 7 is driven to rotate along with the rotating plate, the stabilizing plate 7 keeps a state of being in butt joint with the mounting block 2 to support the mounting plate 11, and the stability of the mounting plate 11 is improved. The side of the rotating plate 3 is provided with a rotating ring 8, the rotating ring 8 and the rotating plate 3 are coaxially arranged, a rotating groove is formed in the inner wall of the mounting groove 22, and the rotating ring 8 is rotationally arranged in the rotating groove. The stability of the rotation of the rotating plate 3 in the mounting groove 22 is improved by the rotating ring 8.

Referring to fig. 6, a guide surface 71 is provided at an edge of the stabilizing plate 7 on a side close to the mounting block 2, and the guide surface 71 is inclined in a direction away from the mounting block 2 at an edge of the stabilizing plate 7 on a side away from the inside. While the guide surface 71 is rotated so that the stabilizer plate 7 is outside the placement groove 21, improving the stability of the fit between the stabilizer plate 7 and the mounting block 2.

Referring to fig. 2 and 5, a stopper 9 is provided between the driver 41 and the driving gear 42, the stopper 9 includes a worm wheel 91 and a worm 92, the worm wheel 91 and the driving gear 42 are coaxially connected, the worm 92 is connected to an output end of the driver 41, and the worm 92 is engaged with the worm wheel 91. The driving member 41 drives the driving gear 42 to rotate through the worm 92 and the worm wheel 91, and further drives the rotating plate 3 to rotate. Meanwhile, the worm wheel 91 and the worm 92 are matched to have self-locking property, the phenomenon that the rotating plate 3 rotates after the position of the rotating plate 3 is adjusted is reduced, and then the stability of the signal transceiver body is improved. A limiting member 9 is also provided between the regulating member 51 and the regulating gear 53, and an output end of the regulating member 51 and the regulating gear 53 are connected through the limiting member 9, so that stability of the intermediate lever 34 is improved after the position of the intermediate lever 34 is regulated.

The implementation principle of the application is as follows: the driving piece 41 drives the rotating plate 3 to rotate through the worm wheel 91 and the worm 92, the rotating plate 3 rotates to drive the mounting plate 11 to rotate through the connecting rod 31, and then the signal receiver body is driven to rotate, after the driving piece 41 drives the rotating plate 3 to rotate, the adjusting piece 51 drives the adjusting rod 52 to move through the adjusting gear 53, meanwhile, the adjusting sleeve 54 is driven to move, the adjusting sleeve 54 moves to drive the middle rod 34 to rotate, the middle rod 34 rotates to drive the rotating plate 3 to rotate around the middle rod 34 through the connecting rod 31, the mounting plate 11 is driven to rotate along two planes which are perpendicular to each other through the middle rod 34 and the rotating plate 3, the signal receiver body is driven to rotate to a designated position through the mounting plate 11, the signal receiver body corresponds to a signal receiver on the ground, and the signal is transmitted to the maximum.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. Satellite signal connects send out ware turning to device, including mounting bracket (1) and be used for installing mounting panel (11) of signal receiver body, its characterized in that: be provided with installation piece (2) on mounting bracket (1), standing groove (21) have been seted up on installation piece (2), standing groove (21) rotation is provided with rotor plate (3), be provided with connecting rod (31) on rotor plate (3), connecting rod (31) are connected with mounting panel (11), be provided with drive assembly (4) on mounting bracket (1), drive assembly (4) and rotor plate (3) are connected and are used for driving mounting panel (11) through rotor plate (3) and rotate to different positions.

2. The satellite signal transceiver steering apparatus of claim 1, wherein: the rotary plate (3) is circular, a driving tooth groove (32) is formed in the circumferential direction of the side face of the rotary plate (3), the driving assembly (4) comprises a driving piece (41) and a driving gear (42), the driving piece (41) is arranged on the mounting frame (1), the driving gear (42) is arranged at the output end of the driving piece (41), and the driving gear (42) is connected with the driving tooth groove (32).

3. The satellite signal transceiver steering apparatus of claim 2, wherein: the utility model discloses a motor vehicle, including rotating board (3), middle groove (33) have been run through on rotating board (3), middle groove (33) set up along the axis direction of perpendicular to rotating board (3), the center setting of middle groove (33) and rotating board (3) is on same straight line, be provided with intermediate lever (34) in middle groove (33), intermediate lever (34) are at middle groove (33) internal rotation setting, the tip of intermediate lever (34) extends to the outside of middle groove (33) and connecting rod (31) are connected, be provided with adjusting part (5) on installation piece (2), adjusting part (5) are connected with intermediate lever (34) and are used for driving intermediate lever (34) rotation.

4. A satellite signal transceiver steering apparatus according to claim 3, wherein: mounting block (2) is gone up and is offered mounting groove (22) with intermediate tank (33) intercommunication, adjusting component (5) are including regulating part (51), regulation pole (52), adjusting gear (53) and adjusting sleeve (54), adjusting sleeve (54) are along setting up towards the direction of intermediate tank (33) in mounting groove (22), adjusting rack (6) have been offered along its length direction on adjusting sleeve (54), auxiliary tooth groove (341) have been offered to the outside circumference of intermediate lever (34), adjusting rack (6) and auxiliary tooth groove (341) meshing, adjusting pole (52) are connected with adjusting sleeve (54), adjusting tooth groove (521) have been offered along the slip direction of adjusting sleeve (54) on adjusting pole (52), one end that adjusting pole (52) deviate from adjusting sleeve (54) extends to the outside of mounting groove (22), adjusting part (51) set up on mounting bracket (1), adjusting gear (53) set up the output at regulating part (51), adjusting gear (53) and tooth groove (521) meshing.

5. The satellite signal transceiver steering apparatus of claim 4, wherein: the sliding direction of the adjusting sleeve (54) and the center of the rotating plate (3) are on the same straight line, an adjusting groove (541) is formed in the adjusting sleeve (54), the adjusting rack (6) is arranged on the inner wall of the adjusting groove (541), the adjusting sleeve (54) is sleeved outside the middle rod (34) through the adjusting groove (541), the rotating axes of the adjusting rod (52) and the rotating plate (3) are arranged on the same straight line, the adjusting rod (52) is rotationally connected with the adjusting sleeve (54), and the adjusting sleeve (54) is rotationally arranged on the adjusting rod (52) around the center of the adjusting rod (52).

6. A satellite signal transceiver steering apparatus according to claim 3, wherein: the installation piece (2) is set to the ball shape, the centre of sphere setting of rotor plate (3) and installation piece (2) is in the coplanar, the side of rotor plate (3) and the side setting of installation piece (2) are in same sphere, the centre of rotation of rotor plate (3) and center of intermediate lever (34) all coincide with the centre of sphere of installation piece (2), be provided with stabilizer bar (7) between mounting panel (11) and installation piece (2), stabilizer bar (7) are connected with mounting panel (11), one side that stabilizer bar (7) deviate from mounting panel (11) and the side slip butt of installation piece (2).

7. The satellite signal transceiver steering apparatus of claim 6, wherein: the stabilizing plate (7) is arranged in an arc shape, and the inner side of the stabilizing plate (7) is abutted to the side face of the mounting block (2).

8. The satellite signal transceiver steering apparatus of claim 7, wherein: the edge that stabilizer bar (7) is close to installation piece (2) one side is offered guide surface (71), the edge that the inside one side of stabilizer bar (7) was kept away from to guide surface (71) is along deviating from the direction slope setting of installation piece (2).

9. The satellite signal transceiver steering apparatus of claim 2, wherein: the output end of the driving piece (41) is coaxially provided with a worm (92), the driving gear (42) is coaxially provided with a worm wheel (91), and the worm wheel (91) is meshed with the worm (92).

10. The satellite signal transceiver steering apparatus of claim 2, wherein: the connecting rod (31) is connected with the side face of the rotating plate (3), the driving tooth groove (32) and the connecting rod (31) are arranged on the same side face of the rotating plate (3), and the plane where the driving tooth groove (32) is arranged and the connecting rod (31) are arranged at intervals.