CN113571867A

CN113571867A - But antenna pedestal suitable for car networking communication is with multi-angle received signal

Info

Publication number: CN113571867A
Application number: CN202110896519.2A
Authority: CN
Inventors: 张席
Original assignee: Individual
Current assignee: Shenzhen Zhuolian Qihang Technology Co ltd
Priority date: 2021-08-05
Filing date: 2021-08-05
Publication date: 2021-10-29
Anticipated expiration: 2041-08-05
Also published as: CN113571867B

Abstract

The invention relates to an antenna pedestal, in particular to an antenna pedestal suitable for multi-angle signal reception for vehicle networking communication, comprising a threaded base, a rotating shaft, a mounting frame, an arc panel, a one-way drive mechanism, and the like; A rotating shaft is connected in a rotary type, an installation frame is welded on the rotating shaft, an arc panel is fixedly installed on the installation frame, and a one-way drive mechanism is fixedly installed in the installation frame. Through the action of the inclined groove guide plate, the guide rod and its upper device are moved toward the direction close to the electric push rod, and the tooth block is engaged with the adjusting gear. The tooth block will push the adjusting gear and its upper device to rotate clockwise, so that the first signal is received. The rod swings upward, and by adjusting the position of the first signal receiving rod, the purpose of receiving signals from different angles is achieved.

Description

But antenna pedestal suitable for car networking communication is with multi-angle received signal

Technical Field

The invention relates to an antenna pedestal, in particular to an antenna pedestal which is suitable for vehicle networking communication and can receive signals in multiple angles.

Background

The antenna pedestal is a device for supporting and positioning the antenna, the antenna pedestal enables the antenna to move according to a preset rule through an antenna control system or move along with a target, the antenna pedestal accurately points to the target, the direction of the target is accurately measured through the axis position detection device, the antenna pedestal is various in types, the antenna pedestal can be classified according to various methods, and can be divided into a land antenna pedestal, a ship antenna pedestal and an air antenna pedestal according to the use environment, and the land antenna pedestal can be divided into a fixed antenna pedestal and a vehicle-mounted antenna pedestal.

The existing vehicle-mounted antenna pedestal has a single structure, the orientation of an antenna is fixed, and the antenna cannot move independently, so that multi-directional signals cannot be received, and when the automobile moves, the automobile is difficult to accurately and quickly receive signals around the automobile, so that the signal receiving is unstable, and the signal disconnection phenomenon often occurs.

Disclosure of Invention

The invention aims to provide an antenna pedestal which can receive signals in different directions, can receive signals around an automobile in multiple angles, can ensure stable signals and is suitable for automobile networking communication and can receive signals in multiple angles, so as to solve the problems that the existing antenna pedestal in the background technology cannot receive signals in multiple directions and cannot accurately and quickly receive the signals around the automobile.

The technical scheme is as follows: the utility model provides an antenna pedestal suitable for but car networking communication is with multi-angle received signal, including threaded base, the rotation axis, the installing frame, the cambered plate, one-way actuating mechanism, one-way subassembly, rotating assembly, first signal reception subassembly, spacing subassembly and push away from the subassembly, the last rotation type of threaded base is connected with the rotation axis, the welding has the installing frame on the rotation axis, fixed mounting has the cambered plate on the installing frame, fixed mounting has one-way actuating mechanism in the installing frame, one-way subassembly sets up the bottom in the installing frame, rotating assembly locates on one-way actuating mechanism, the rotary type is connected with first signal reception subassembly in the installing frame, be provided with spacing subassembly on the installing frame, push away from subassembly fixed mounting on the cambered plate.

Further, one-way actuating mechanism is including electric putter, the guide holder, the cogged piece, first compression spring, the activity backup pad, second compression spring, guide bar and guide arm, fixed mounting has electric putter in the installing frame, the welding of electric putter telescopic shaft one end has the guide holder, sliding connection has the cogged piece on the guide holder, the first compression spring of cogged piece bottom fixedly connected with, first compression spring one end links to each other with the guide holder, the sliding connection of activity backup pad is on the guide holder, the mutual parallel and level of activity backup pad top surface and cogged piece bottom surface, the hookup has second compression spring on the guide holder, second compression spring one end and activity backup pad fixed connection, the welding of activity backup pad bottom surface has the guide bar, the guide arm rigid coupling is on the activity backup pad, the guide arm is connected with the guide holder sliding type.

Further, one-way subassembly is including chute deflector, wedge gib block and extension spring, and the chute deflector sets up bottom in the installing frame, and the guide bar is connected with the chute deflector is spacing, and the slidingtype is connected with the wedge gib block on the chute deflector, and wedge gib block and guide bar contact each other, are connected with extension spring between wedge gib block and the chute deflector.

Furthermore, the rotating assembly comprises a rack and a rotating gear, the rack is welded on the guide seat, the rotating gear is fixedly connected to the rotating shaft, and the rotating gear and the rack are mutually matched.

Furthermore, first signal reception subassembly is including the axis of rotation, adjusting gear, ratchet dish, first signal reception pole and torsion spring, and the rotary type is connected with the axis of rotation in the installing frame, is provided with adjusting gear in the axis of rotation, and adjusting gear one side rigid coupling has the ratchet dish, and the welding has first signal reception pole in the axis of rotation, and first signal reception pole and cambered plate sliding type are connected, and first signal reception pole one side rigid coupling has torsion spring, and torsion spring one end and installing frame hookup.

Furthermore, the limiting assembly comprises a grooving guide strip, a movable plate, a limiting strip, a third compression spring and a fourth compression spring, the grooving guide strip is arranged on the mounting frame, the movable plate is connected to the grooving guide strip in a sliding mode, the limiting strip is connected to the movable plate in a sliding mode, the limiting strip is in contact with the ratchet wheel disc, the fourth compression spring is connected between the movable plate and the grooving guide strip, and the third compression spring is connected between the limiting strip and the movable plate.

Further, the pushing-away assembly comprises a fixing strip, a movable lower pressing plate, an opening strip, a fifth compression spring and a slotting pulling plate, the fixing strip is fixedly installed on the cambered plate, the movable lower pressing plate is connected to the fixing strip in a lifting mode, the opening strip is welded to the top of the movable lower pressing plate, the fifth compression spring is connected between the opening strip and the fixing strip, the slotting pulling plate is welded to the movable plate, and the slotting pulling plate and the opening strip are in contact with each other.

Further, still including second signal reception subassembly, second signal reception subassembly sets up on the installing frame, second signal reception subassembly is including the movable strip, promote the strip, the fixed plate, reset spring, swing seat, second signal reception pole and connecting rod, the sliding type is connected with the movable strip on the installing frame, the welding of movable strip one side has the promotion strip, the welding of installing frame internal symmetry has the fixed plate, the hookup has reset spring on the fixed plate, reset spring one end links to each other with the movable strip, the rotatable type is connected with two swing seats on the installing frame, the welding has the second signal reception pole on the swing seat, have the strip groove corresponding with second signal reception pole on the installing frame, it has the connecting rod to articulate on the swing seat, the connecting rod is connected with the movable strip rotary type.

The beneficial effects are that:

through the effect of chute deflector, make guide bar and last device move towards being close to electric putter direction, let tooth piece and adjusting gear meshing, the tooth piece can promote adjusting gear and last device clockwise turning for first signal reception pole luffing motion, through the position of adjusting first signal reception pole, the realization carries out the purpose received to the signal of different angles.

Reciprocating motion can drive rotatory gear and rotation axis through the rack and rotate, and the rotation axis drives the installing frame and goes up the device and rotate, and first signal receiving rod swings towards different angles simultaneously for first signal receiving rod can receive the signal of equidirectional not, guarantees that the signal is stable.

The pushing strip and the movable strip are pushed intermittently by the movable supporting plate to move towards the direction far away from the rotating shaft, the swinging seat and the upper device thereof are intermittently pulled to rotate by the connecting rod, so that the two second signal receiving rods intermittently swing, the second signal receiving rods can receive signals in more directions, and the purpose of intermittently increasing the signal receiving range is realized.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic diagram of a first partially separated body structure of a first signal receiving assembly according to the present invention.

Fig. 4 is a schematic perspective view of the rotating assembly of the present invention.

Fig. 5 is a perspective view of the unidirectional assembly of the present invention.

Fig. 6 is a schematic view of a partially cut-away perspective structure of the one-way driving mechanism of the present invention.

Fig. 7 is a schematic diagram of a second partially separated body structure of the first signal receiving assembly according to the present invention.

Fig. 8 is a schematic perspective view of the spacing assembly of the present invention.

Fig. 9 is a schematic perspective view of a portion of the push-off assembly of the present invention.

Fig. 10 is a schematic sectional perspective view of a second signal receiving assembly according to the present invention.

Part names and serial numbers in the figure: 1_ threaded base, 2_ rotary shaft, 3_ mounting frame, 4_ arc plate, 5_ one-way driving mechanism, 51_ electric push rod, 52_ guide base, 53_ toothed block, 54_ first compression spring, 55_ movable support plate, 56_ second compression spring, 57_ guide rod, 58_ guide rod, 6_ one-way component, 61_ chute guide plate, 62_ wedge guide bar, 63_ extension spring, 7_ rotary component, 71_ rack, 72_ rotary gear, 8_ first signal receiving component, 81_ rotary shaft, 82_ adjustment gear, 83_ ratchet disc, 84_ first signal receiving rod, 85_ torsion spring, 9_ limit component, 91_ slotted guide bar, 92_ movable plate, 93_ limit bar, 94_ third compression spring, 95_ fourth compression spring, 10_ push-off component, 101_ fixed bar, 102_ movable hold-down plate, 103_ open bar, 104_ fifth compression spring, 105_ slotted pull plate, 11_ second signal receiving element, 111_ movable bar, 112_ push bar, 113_ fixed plate, 114_ return spring, 115_ swing seat, 116_ second signal receiving rod, 117_ link.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

An antenna pedestal suitable for vehicle networking communication and capable of receiving signals in multiple angles is disclosed, as shown in figures 1-10, and comprises a threaded base 1, a rotating shaft 2, a mounting frame 3, an arc panel 4, a one-way driving mechanism 5, a one-way component 6, a rotating component 7, a first signal receiving component 8, a limiting component 9 and a push-off component 10, wherein the threaded base 1 is rotatably connected with the rotating shaft 2, the rotating shaft 2 is welded with the mounting frame 3, the arc panel 4 is fixedly mounted on the mounting frame 3, the one-way driving mechanism 5 is fixedly mounted in the mounting frame 3, the one-way component 6 is arranged at the bottom in the mounting frame 3, a rotating assembly 7 for making equipment be convenient for receive multi-direction signal locates on one-way actuating mechanism 5, and the rotatable formula of installing frame 3 is connected with the first signal reception subassembly 8 that is used for receiving the signal, is provided with spacing subassembly 9 on the installing frame 3, pushes away from subassembly 10 fixed mounting on cambered plate 4.

The one-way driving mechanism 5 comprises an electric push rod 51, a guide seat 52, a tooth block 53, a first compression spring 54, a movable supporting plate 55, a second compression spring 56, a guide rod 57 and a guide rod 58, the electric push rod 51 is fixedly installed in the installation frame 3, the guide seat 52 is welded at one end of an expansion shaft of the electric push rod 51, the tooth block 53 is connected on the guide seat 52 in a sliding manner, the first compression spring 54 is fixedly connected at the bottom of the tooth block 53, one end of the first compression spring 54 far away from the tooth block 53 is connected with the guide seat 52, the movable supporting plate 55 is connected on the guide seat 52 close to the tooth block 53 in a sliding manner, the top surface of the movable supporting plate 55 is flush with the bottom surface of the tooth block 53, the movable supporting plate 55 is used for blocking the tooth block 53, the second compression spring 56 is connected on the guide seat 52, one end of the second compression spring 56 far away from the guide seat 52 is fixedly connected with the movable supporting plate 55, the guide rod 57 is welded at the bottom surface of the movable supporting plate 55, the guide rod 58 is fixed on the movable supporting plate 55, and the guide rod 58 is connected with the guide base 52 in a sliding manner.

One-way subassembly 6 is including chute deflector 61, wedge gib block 62 and extension spring 63, and chute deflector 61 sets up bottom in installing frame 3, and guide bar 57 is connected with chute deflector 61 is spacing, and sliding connection has wedge gib block 62 on chute deflector 61, and wedge gib block 62 and guide bar 57 contactless each other, and chute deflector 61 is used for leading guide bar 57, is connected with extension spring 63 between wedge gib block 62 and the chute deflector 61.

The rotating assembly 7 comprises a rack 71 and a rotating gear 72, the rack 71 is welded on the guide seat 52 close to the electric push rod 51, the rotating gear 72 is fixedly connected on the rotating shaft 2 far away from the threaded base 1, and the rotating gear 72 is matched with the rack 71.

The first signal receiving assembly 8 includes a rotation shaft 81, an adjusting gear 82, a ratchet plate 83, a first signal receiving rod 84 and a torsion spring 85, the rotation shaft 81 is rotatably connected in the mounting frame 3, the adjusting gear 82 is disposed on the rotation shaft 81, the ratchet plate 83 is fixedly connected to one side of the adjusting gear 82, the first signal receiving rod 84 is welded to the rotation shaft 81 close to the adjusting gear 82, the first signal receiving rod 84 is slidably connected with the arc panel 4, the torsion spring 85 is fixedly connected to one side of the first signal receiving rod 84, and one end of the torsion spring 85 far away from the first signal receiving rod 84 is connected with the mounting frame 3.

The limiting assembly 9 comprises a slotted guide strip 91, a movable plate 92, a limiting strip 93, a third compression spring 94 and a fourth compression spring 95, the slotted guide strip 91 is arranged on the mounting frame 3, the slotted guide strip 91 is connected with the movable plate 92 in a sliding manner, the movable plate 92 is connected with the limiting strip 93 in a sliding manner, the limiting strip 93 is in contact with the ratchet wheel disc 83, the limiting strip 93 is used for clamping the ratchet wheel disc 83, the fourth compression spring 95 is connected between the movable plate 92 and the slotted guide strip 91, and the third compression spring 94 is connected between the limiting strip 93 and the movable plate 92.

The pushing-away assembly 10 comprises a fixed strip 101, a movable lower pressing plate 102, an expanding strip 103, a fifth compression spring 104 and a slotting pulling plate 105, the fixed strip 101 is fixedly installed on the cambered plate 4, the movable lower pressing plate 102 is connected to the fixed strip 101 in a lifting mode, the expanding strip 103 is welded to the top of the movable lower pressing plate 102, the fifth compression spring 104 is connected between the expanding strip 103 and the fixed strip 101, the slotting pulling plate 105 is welded to the movable plate 92, the slotting pulling plate 105 is in contact with the expanding strip 103, and the expanding strip 103 is used for pushing the slotting pulling plate 105 and an upper device thereof to move towards the direction away from the adjusting gear 82.

This equipment is installed in the car top, and when the first signal receiving rod 84 on this equipment was when the received signal, electric putter 51 telescopic shaft lasted flexible, and electric putter 51 can drive guide holder 52 and the device left and right reciprocating motion that goes up thereof, and rack 71 left and right reciprocating motion can drive rotary gear 72 and rotation axis 2 and rotate, and rotation axis 2 drives installing frame 3 and the device rotation that goes up thereof, and the first signal receiving rod 84 of being convenient for can give the signal of receiving not equidirectional. When the electric push rod 51 extends the telescopic shaft, the electric push rod 51 extends to drive the guide seat 52 and the device thereon to move in the direction away from the rotating shaft 2, since the wedge-shaped guide bar 62 blocks the guide rod 57, the guide rod 57 and the devices thereon move towards the direction close to the electric push rod 51 under the action of the chute guide plate 61, the movable supporting plate 55 blocks the tooth block 53, when the gear block 53 is engaged with the adjusting gear 82, the gear block 53 will push the adjusting gear 82 and the device thereon to rotate clockwise, so that the first signal receiving rod 84 swings upwards, the clockwise rotation of the ratchet plate 83 will push the limiting strip 93 and the upper device to move downwards, the limiting strip 93 will not block the ratchet plate 83, the ratchet plate 83 can rotate smoothly, and the compressed third compression spring 94 resets to drive the limit strip 93 and the device thereon to move upwards for resetting, so that the limit strip 93 clamps the ratchet plate 83.

The guide seat 52 and the device thereon move in the direction away from the rotating shaft 2, the guide rod 57 and the device thereon move in the direction away from the electric push rod 51, the guide seat 52 and the device thereon continue to move in the direction away from the rotating shaft 2, the second compression spring 56 in the compressed state resets to drive the movable support plate 55 to move in the direction away from the electric push rod 51, and the movable support plate 55 no longer blocks the tooth block 53.

Then the telescopic shaft of the electric push rod 51 is contracted, the electric push rod 51 is contracted to drive the guide seat 52 and the device thereon to move towards the direction close to the rotating shaft 2, the guide rod 57 and the device thereon move towards the direction close to the electric push rod 51 under the action of the chute guide plate 61, when the tooth block 53 is meshed with the adjusting gear 82 again, the adjusting gear 82 pushes the tooth block 53 to move downwards, when the guide rod 57 is contacted with the wedge-shaped guide strip 62, the guide rod 57 pushes the wedge-shaped guide strip 62 to move towards the direction close to the rotating shaft 2, and then the stretched stretching spring 63 is reset to drive the wedge-shaped guide strip 62 to move towards the direction away from the rotating shaft 2, and the wedge-shaped guide strip 62 blocks the guide rod 57.

By repeating the above operations, the first signal receiving rod 84 continuously swings clockwise, and the position of the first signal receiving rod 84 is adjusted, so as to achieve the purpose of receiving signals at different angles. When the first signal receiving rod 84 rotates one hundred eighty degrees, the first signal receiving rod 84 pushes the movable lower pressing plate 102 and the opening bar 103 to move downwards, the opening bar 103 pushes the slotted pulling plate 105 and the upper device thereof to move in a direction away from the adjusting gear 82, the limiting bar 93 is separated from the ratchet wheel disc 83, the compressed torsion spring 85 is reset to drive the first signal receiving rod 84 and the upper device thereof to rotate and reset, the first signal receiving rod 84 is separated from the movable lower pressing plate 102, the compressed fifth compression spring 104 is reset to drive the movable lower pressing plate 102 and the opening bar 103 to move upwards, the opening bar 103 is separated from the slotted pulling plate 105, the compressed fourth compression spring 95 is reset to drive the movable plate 92 and the upper device thereof to move in a direction close to the adjusting gear 82, and the ratchet wheel disc 83 is clamped by the limiting bar 93.

Example 2

On the basis of embodiment 1, as shown in fig. 10, the signal processing device further includes a second signal receiving assembly 11, the second signal receiving assembly 11 is disposed on the mounting frame 3, the second signal receiving assembly 11 is used for enhancing signals, the second signal receiving assembly 11 includes a movable strip 111, a push strip 112, a fixed plate 113, a return spring 114, a swing seat 115, a second signal receiving rod 116 and a connecting rod 117, the movable strip 111 is slidably connected on the mounting frame 3, the push strip 112 is welded on one side of the movable strip 111, the fixed plate 113 is symmetrically welded in the mounting frame 3, the return spring 114 is connected on the fixed plate 113, one end of the return spring 114 far away from the fixed plate 113 is connected to the movable strip 111, two swing seats 115 are rotatably connected on the mounting frame 3, the second signal receiving rod 116 is welded on the swing seat 115, the second signal receiving rod 116 is used for receiving signals in more directions, a strip-shaped groove corresponding to the second signal receiving rod 116 is formed on the mounting frame 3, the swing seat 115 is hinged with a connecting rod 117, and the connecting rod 117 far away from the swing seat 115 is rotatably connected with the movable strip 111.

When the guide holder 52 and the device thereon move toward the direction approaching the rotating shaft 2, the movable supporting plate 55 contacts with the pushing bar 112, the movable supporting plate 55 pushes the pushing bar 112 and the movable bar 111 to move toward the direction away from the rotating shaft 81, the movable bar 111 pulls the swing holder 115 and the device thereon to rotate through the connecting rod 117, so that the two second signal receiving rods 116 swing relatively, and the second signal receiving rods 116 can receive signals in more directions. The guide rod 57 and the device thereon move towards the direction close to the electric push rod 51, the movable supporting plate 55 will separate from the pushing strip 112, the compressed return spring 114 is reset to drive the movable strip 111 and the device thereon to move towards the direction close to the rotating shaft 81, and the connecting rod 117 pulls the swinging seat 115 and the device thereon to rotate and reset. By repeating the above operation, the two second signal receiving levers 116 are intermittently swung, so that the apparatus can intermittently increase the signal receiving range.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An antenna base suitable for multi-angle receiving signals for vehicle networking communication, characterized in that it comprises a threaded base (1), a rotating shaft (2), a mounting frame (3), an arc panel (4), a single Rotate on the threaded base (1) toward the driving mechanism (5), the one-way assembly (6), the rotating assembly (7), the first signal receiving assembly (8), the limiting assembly (9) and the push-off assembly (10) A rotating shaft (2) is connected with the rotating shaft (2), a mounting frame (3) is welded on the rotating shaft (2), an arc panel (4) is fixedly mounted on the mounting frame (3), and a one-way drive is fixedly mounted in the mounting frame (3). Mechanism (5), the one-way assembly (6) is arranged on the inner bottom of the installation frame (3), the rotating assembly (7) is arranged on the one-way drive mechanism (5), and the first signal is rotatably connected in the installation frame (3) The receiving assembly (8) is provided with a limiting assembly (9) on the installation frame (3), and the push-off assembly (10) is fixedly installed on the arc panel (4).

2. An antenna base suitable for multi-angle reception of signals for Internet of Vehicles communication according to claim 1, characterized in that the one-way drive mechanism (5) comprises an electric push rod (51), a guide seat (52) ), tooth block (53), first compression spring (54), movable support plate (55), second compression spring (56), guide rod (57) and guide rod (58), which are fixed inside the mounting frame (3). An electric push rod (51) is installed, one end of the telescopic shaft of the electric push rod (51) is welded with a guide seat (52), the guide seat (52) is slidably connected with a tooth block (53), and the bottom of the tooth block (53) is fixedly connected There is a first compression spring (54), one end of the first compression spring (54) is connected to the guide seat (52), the movable support plate (55) is slidably connected to the guide seat (52), and the top surface of the movable support plate (55) The bottom surface of the tooth block (53) is flush with each other, the guide seat (52) is connected with a second compression spring (56), and one end of the second compression spring (56) is fixedly connected to the movable support plate (55). ) bottom surface is welded with a guide rod (57), the guide rod (58) is fixed on the movable support plate (55), and the guide rod (58) is slidably connected with the guide seat (52).

3. An antenna base suitable for multi-angle reception of signals for Internet of Vehicles communication according to claim 2, characterized in that the one-way assembly (6) comprises an inclined groove guide plate (61), a wedge-shaped guide strip ( 62) and the tension spring (63), the chute guide plate (61) is arranged at the inner bottom of the installation frame (3), the guide rod (57) is connected with the chute guide plate (61) at the limit, and the chute guide plate (61) ) is slidably connected with a wedge-shaped guide strip (62), the wedge-shaped guide strip (62) and the guide rod (57) are in contact with each other, and a tension spring ( 63).

4. An antenna base suitable for multi-angle reception of signals for Internet of Vehicles communication according to claim 3, characterized in that the rotating assembly (7) comprises a rack (71) and a rotating gear (72), the guide A rack (71) is welded on the seat (52), a rotating gear (72) is fixed on the rotating shaft (2), and the rotating gear (72) and the rack (71) fit each other.

5. An antenna base suitable for multi-angle signal reception for IoV communication according to claim 4, characterized in that the first signal receiving assembly (8) comprises a rotating shaft (81), an adjusting gear (82) ), a ratchet disc (83), a first signal receiving rod (84) and a torsion spring (85), a rotating shaft (81) is rotatably connected in the mounting frame (3), and an adjusting gear (81) is arranged on the rotating shaft (81). 82), a ratchet disc (83) is fixedly connected to one side of the adjusting gear (82), a first signal receiving rod (84) is welded on the rotating shaft (81), the first signal receiving rod (84) and the arc panel (4) In a sliding connection, a torsion spring (85) is fixedly connected to one side of the first signal receiving rod (84), and one end of the torsion spring (85) is connected to the installation frame (3).

6. An antenna base suitable for multi-angle signal reception for IoV communication according to claim 5, characterized in that the limiting assembly (9) comprises a slotted guide strip (91), a movable plate (92) ), the limiting strip (93), the third compression spring (94) and the fourth compression spring (95), the installation frame (3) is provided with a slotted guide strip (91), and the slotted guide strip (91) slides on the A movable plate (92) is connected to the movable plate (92) in a sliding type connection with a limit bar (93), the limit bar (93) and the ratchet plate (83) are in contact with each other, and the movable plate (92) is connected with the slotted guide strip. A fourth compression spring (95) is connected between (91), and a third compression spring (94) is connected between the limit bar (93) and the movable plate (92).

7. An antenna base suitable for multi-angle signal reception for IoV communication according to claim 6, characterized in that the push-off assembly (10) comprises a fixed strip (101), a movable lower pressure plate (102) , the opening bar (103), the fifth compression spring (104) and the slotted pulling plate (105), the fixing bar (101) is fixedly installed on the arc panel (4), and the movable lower pressing plate (102) can be lifted and lowered Connected to the fixing bar (101), a stretcher bar (103) is welded on the top of the movable lower pressing plate (102), and a fifth compression spring (104) is connected between the stretcher bar (103) and the fixing bar (101). A slotted pulling plate (105) is welded on the plate (92), and the slotted pulling plate (105) and the spreading strip (103) are in contact with each other.

8. An antenna base suitable for multi-angle reception of signals for Internet of Vehicles communication according to claim 7, characterized in that it further comprises a second signal receiving assembly (11), a second signal receiving assembly (11) Set on the installation frame (3), the second signal receiving assembly (11) includes a movable bar (111), a push bar (112), a fixed plate (113), a return spring (114), a swing seat (115), a first Two signal receiving rods (116) and connecting rods (117), a movable bar (111) is slidably connected to the mounting frame (3), a push bar (112) is welded on one side of the movable bar (111), and the mounting frame (3) A fixed plate (113) is welded symmetrically inside, a return spring (114) is connected to the fixed plate (113), one end of the return spring (114) is connected with the movable bar (111), and the mounting frame (3) is rotatably connected with two swinging The seat (115), the swing seat (115) is welded with a second signal receiving rod (116), the mounting frame (3) is provided with a strip groove corresponding to the second signal receiving rod (116), the swing seat (115) A connecting rod (117) is hinged on the upper part, and the connecting rod (117) is rotatably connected with the movable bar (111).