CN112810538B - On-vehicle miniature 5G signal radiation receives integrative piece - Google Patents

Abstract

The invention provides a vehicle-mounted miniature 5G signal radiation and reception integrated piece, and belongs to the technical field of vehicle-mounted articles. It has solved the current on-vehicle 5G and has received the piece and install the not good problem of mode in the automobile body. This an organic whole includes multimedia spare, the support, multimedia spare sets up on the support, still fixed installation department that is equipped with on the support, the support includes the stake body, rotate the first dish axle that sets up on the stake body, rotate the second dish axle that sets up on the stake body, the fixed first driving-disc that sets up at first dish axle tip, the fixed epaxial second driving-disc that sets up at the second dish, two fixed settings just set up the horizontal stopper of horizontal spout on the stake body, fixed setting just sets up two vertical stoppers of vertical spout on the stake body. Compared with the prior art, the installation can both be accomplished through general support in the multi-media spare of changing different sizes in an organic whole piece, and the variability of installation is high, strong adaptability, and the process of dismouting is very convenient.

Description

On-vehicle miniature 5G signal radiation receives integrative piece

Technical Field

The invention belongs to the technical field of vehicle-mounted articles, and relates to a vehicle-mounted miniature 5G signal radiation and reception integrated piece.

Background

The 5G, also known as the fifth generation mobile communication technology, is the latest generation cellular mobile communication technology, and is an extension following 4G (LTE-A, WiMax), 3G (UMTS, LTE) and 2G (gsm) systems.

The existing automobile is not provided with a communication baseband or is only provided with a 4G baseband to receive a 4G signal, the automobile with the network baseband is generally provided with a multimedia electronic screen and a sound box at the same time, and the network signal can be received through the network baseband of the automobile, so that on-vehicle multimedia expression items such as songs, videos and the like can be expressed from the multimedia electronic screen and the sound box.

The existing vehicle-mounted communication signal is usually only provided with a 4G baseband, and with the development of the times, 5G has become more and more popular in the current society, so that it is necessary to be able to additionally mount an object with the function of receiving and playing 5G signals in a vehicle to provide the function of receiving and playing the 5G signals.

The problem that the 5G receiving piece can be stably installed in the vehicle only by adopting the structure is to be overcome; in addition, if the 5G receiving member is movably disposed in the vehicle, the position of the 5G receiving member is adjusted according to the user's needs, and since the closer the external media member (e.g., a mobile phone) is to the 5G receiving member, the stronger the signal intensity will be, it is preferable that the 5G receiving member can be adjusted to its upper position, which is possible for the user who is using the mobile phone.

Disclosure of Invention

The invention aims to provide an integrated vehicle-mounted miniature 5G signal radiation receiving piece, which aims at solving the problem that the conventional vehicle-mounted 5G receiving piece is not good in mounting mode in a vehicle body.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an on-vehicle miniature 5G signal radiation receives integrative piece, is used for carrying on wireless biography and receives 5G signal and have the multimedia spare of electronic screen, be used for carrying out the support of relatively fixed with the automobile body, and multimedia spare sets up on the support, still fixedly is equipped with on the support to be used for fixing the installation department on the automobile body, its characterized in that: the support comprises a support body, a first disc shaft, a second disc shaft, a first driving disc, a second driving disc, two transverse limiting blocks, two vertical limiting blocks, two transverse clamping rods and two vertical frame rods, wherein the first disc shaft is rotatably arranged on the support body;

the centers of the first disc shaft and the first driving disc are jointly penetrated and provided with through holes, the caliber size of the through holes is consistent with that of the second disc shaft, the second disc shaft penetrates through the through holes, the second disc shaft is also provided with two shaft body limiting rings, and the end surfaces of the two sides of the first disc shaft and the first driving disc are attached to the two shaft body limiting rings to realize axial limiting;

the two transverse limiting blocks and the two vertical limiting blocks are positioned on the same virtual cross, the two transverse limiting blocks are arranged in a central symmetry mode relative to the rotation center lines of the first disc shaft and the second disc shaft, and the two vertical limiting blocks are also arranged in a central symmetry mode relative to the rotation center lines of the first disc shaft and the second disc shaft;

two first guiding grooves have been seted up to central symmetry on the first driving-disc, horizontal clamping bar activity sets up in first guiding groove, the interval is equipped with two horizontal pole spacing rings on the horizontal clamping bar, the both sides of first driving-disc are all pasted in these two horizontal pole spacing rings in order to realize the axial spacing, and the width size of first guiding groove is consistent so that the both sides of horizontal clamping bar all paste on the perisporium of first guiding groove with the diameter of horizontal clamping bar, the orbit central line of first guiding groove is the form that increases progressively to the distance of first driving-disc central point, along with the rotation of first driving-disc: the transverse clamping rods can move relative to the first guide grooves so as to slide in the transverse sliding grooves, and the two transverse clamping rods synchronously approach or leave in the same direction;

two second guiding grooves have been seted up to central symmetry on the second driving-disc, vertical clamping bar activity sets up in the second guiding groove, the interval is equipped with two vertical spacing rings on the vertical clamping bar, the both sides of second driving-disc are all pasted in these two vertical spacing rings in order to realize the axial spacing, and the width size of second guiding groove is consistent with the diameter of vertical clamping bar so that the both sides of vertical clamping bar all paste on the perisporium of second guiding groove, the orbit central line of second guiding groove is the form that increases progressively to the distance of second driving-disc central point, along with the rotation of second driving-disc: the vertical clamping rods can move relative to the second guide grooves so as to slide in the vertical sliding grooves, and the two vertical clamping rods synchronously approach or leave in the same direction;

the first guide groove and the second guide groove are the same in shape, and the increasing directions of the first guide groove and the second guide groove are both clockwise or anticlockwise;

the diameter size of the first driving disc is larger than that of the second driving disc, and the position of the first guide groove in the projection direction is not overlapped with the second driving disc;

the end parts of the two transverse clamping rods and the end parts of the two vertical frame rods are positioned on the same plane, the end parts of the transverse clamping rods are vertically provided with transverse vertical rods, the end parts of the transverse vertical rods are provided with transverse clamping pieces, the end parts of the vertical clamping rods are vertically provided with vertical rods, the end parts of the vertical rods are provided with vertical clamping pieces, and clamping spaces for clamping multimedia pieces are formed between the two transverse clamping pieces and the two vertical clamping pieces;

the transverse clamping rod is fixedly provided with a cuboid transverse sliding block, two side faces of the transverse sliding block are attached to the peripheral wall of the transverse sliding groove so that the transverse clamping rod can complete radial limiting, the vertical clamping rod is fixedly provided with a cuboid vertical sliding block, and two side faces of the vertical sliding block are attached to the peripheral wall of the vertical sliding groove so that the vertical clamping rod can complete radial limiting;

the friction effect is generated in the process of mutual rotation between the through hole and the second disc shaft, the first disc shaft is driven to synchronously rotate through the friction effect after the second disc shaft rotates without external force, the transverse clamping pieces are blocked and limited after being clamped to two transverse side surfaces of the multimedia piece, and the first disc shaft cannot rotate along with the second disc shaft when the second disc shaft continues to rotate;

and the second disc shaft is connected with a driving piece for driving the second disc shaft to rotate.

In the integrated vehicle-mounted miniature 5G signal radiation receiving piece, the horizontal clamping piece and the vertical clamping piece are provided with soft gaskets.

In the above integrated device for radiation and reception of vehicle-mounted miniature 5G signals, the driving member is a miniature electronic motor, and an output shaft of the miniature electronic motor is butted with the second disk shaft.

In the integrated vehicle-mounted miniature 5G signal radiation receiving part, the driving part is a handle, and the handle penetrates out of the outer end of the support body.

In the integrated vehicle-mounted miniature 5G signal radiation receiving piece, the mounting part is an adhesive sheet with an adhesive effect.

In the integrated vehicle-mounted miniature 5G signal radiation receiving piece, the mounting part is a buckle which is used for being clamped on an air conditioner outlet blade of an automobile body.

Compared with the prior art, in this vehicle-mounted miniature 5G signal radiation receiving integrated piece, the installation can be accomplished through general support to the multi-media piece of change different sizes, and the variability of installation is high, strong adaptability, and the process of dismouting is very convenient.

Drawings

FIG. 1 is a schematic structural view of a pedestal;

FIG. 2 is a schematic structural view of the support after the support is hidden in the support body;

FIG. 3 is a front view structure diagram of the support after hiding the support body and parts for clamping;

FIG. 4 is a schematic view of the support in an expanded state with the hidden stent body and components for clamping;

FIG. 5 is a schematic view of the bracket in a gradually closing process after the bracket body and parts for clamping are hidden;

FIG. 6 is a schematic structural view of the support after hiding the support body and the components for clamping and after the transverse clamping bars are blocked and limited but the vertical clamping bars are continuously folded to a certain extent;

FIG. 7 is an exploded view of the stand with the hidden bracket body and components for clamping;

in the figure, 1, a stent body; 2. a first disc shaft; 3. a second disc shaft; 4. a first drive disk; 5. a second drive disc; 6. a transverse limiting block; 7. a vertical limiting block; 8. a transverse clamping bar; 9. a vertical frame bar; 10. through holes; 11. a shaft body limiting ring; 12. a first guide groove; 13. a cross bar limiting ring; 14. a second guide groove; 15. a vertical spacing ring; 16. a transverse vertical rod; 17. a transverse clamping piece; 18. a vertical rod; 19. a vertical clamping piece; 20. a transverse slide block; 21. and a vertical sliding block.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

The vehicle-mounted miniature 5G signal radiation and reception integrated piece comprises a multimedia piece and a support, wherein the multimedia piece is used for wirelessly transmitting and receiving 5G signals and is provided with an electronic screen, the support is used for being relatively fixed with a vehicle body, the multimedia piece is arranged on the support, and an installation part used for being fixed on the vehicle body is further fixedly arranged on the support.

The variety of the multimedia components is more various, the common 5G mobile phone can also be used as the multimedia component, or some vehicle-mounted flat plates with 5G functions can also be used, therefore, after the media pieces have multiple options, the sizes of different media pieces are not different, and the modern aesthetic concept leads the multimedia pieces between mobile phones and flat plates in the market to adopt the design of a cuboid shape, the length and the width of the multimedia pieces are different, in order to provide a universal clamping component for clamping different multimedia pieces, the invention specially designs the support to complete clamping, in addition, for the convenience of explanation, the inventor also purposely makes the scale and relative size of each component optimized and reduced or extended in the drawings, so that the technical scheme can observe the operation principle more clearly in the description process, the specific technical scheme is as follows:

as shown in fig. 1 to 7, the support includes a support body 1, a first disk shaft 2 rotatably disposed on the support body 1, a second disk shaft 3 rotatably disposed on the support body 1, a first driving disk 4 fixedly disposed at an end of the first disk shaft 2, a second driving disk 5 fixedly disposed on the second disk shaft 3, two transverse stoppers 6 fixedly disposed on the support body 1 and provided with transverse sliding grooves, two vertical stoppers 7 fixedly disposed on the support body 1 and provided with vertical sliding grooves, two transverse clamping rods 8 respectively slidably disposed in the two transverse sliding grooves, and two vertical frame rods 9 respectively slidably disposed in the two vertical sliding grooves;

the centers of the first disc shaft 2 and the first driving disc 4 are jointly penetrated and provided with a through hole 10, the caliber size of the through hole 10 is consistent with that of the second disc shaft 3, the second disc shaft 3 penetrates through the through hole 10, two shaft body limiting rings 11 are further arranged on the second disc shaft 3, and the end surfaces of the two sides of the first disc shaft 2 and the first driving disc 4 are attached to the two shaft body limiting rings 11 to realize axial limiting;

the two transverse limiting blocks 6 and the two vertical limiting blocks 7 are positioned on the same virtual cross, the two transverse limiting blocks 6 are arranged in a central symmetry mode relative to the rotation center lines of the first disc shaft 2 and the second disc shaft 3, and the two vertical limiting blocks 7 are also arranged in a central symmetry mode relative to the rotation center lines of the first disc shaft 2 and the second disc shaft 3;

two first guiding grooves 12 have been seted up to central symmetry on first driving-disc 4, horizontal clamping bar 8 activity sets up in first guiding groove 12, the interval is equipped with two horizontal pole spacing rings 13 on the horizontal clamping bar 8, the both sides of first driving-disc 4 are all pasted in these two horizontal pole spacing rings 13 in order to realize the axial spacing, and the width dimension of first guiding groove 12 is consistent so that the both sides of horizontal clamping bar 8 are all pasted on the perisporium of first guiding groove 12 with the diameter of horizontal clamping bar 8, the orbit central line of first guiding groove 12 is the form that progressively scales up to the distance of first driving-disc 4 central points, along with the rotation of first driving-disc 4: the transverse clamping rods 8 can move relative to the first guide grooves 12 so as to realize that the transverse clamping rods 8 slide in the transverse sliding grooves, and the two transverse clamping rods 8 synchronously move close to or far away from each other in the same direction;

two second guiding grooves 14 have been seted up to central symmetry on second driving-disc 5, vertical clamping bar activity sets up in second guiding groove 14, the interval is equipped with two vertical spacing rings 15 on the vertical clamping bar, the two sides of second driving-disc 5 are all pasted in these two vertical spacing rings 15 in order to realize the axial spacing, and the width dimension of second guiding groove 14 is consistent with the diameter of vertical clamping bar so that the both sides of vertical clamping bar all paste on the perisporium of second guiding groove 14, the orbit central line of second guiding groove 14 is the form that progressively increases up to the distance of 5 central points of second driving-disc, along with the rotation of second driving-disc 5: the vertical clamping rods can move relative to the second guide grooves 14 so as to slide in the vertical sliding grooves, and the two vertical clamping rods synchronously approach or leave in the same direction;

the first guide groove 12 and the second guide groove 14 are the same in shape, and both the increasing directions of the first guide groove and the second guide groove are clockwise or counterclockwise;

the diameter size of the first driving disk 4 is larger than that of the second driving disk 5, and the position of the first guide groove 12 in the projection direction is not overlapped with the second driving disk 5;

the end parts of the two transverse clamping rods 8 and the end parts of the two vertical frame rods 9 are positioned on the same plane, the end parts of the transverse clamping rods 8 are vertically provided with transverse vertical rods 16, the end parts of the transverse vertical rods 16 are provided with transverse clamping pieces 17, the end parts of the vertical clamping rods are vertically provided with vertical rods 18, the end parts of the vertical rods 18 are provided with vertical clamping pieces 19, and clamping spaces for clamping multimedia pieces are formed between the two transverse clamping pieces 17 and the two vertical clamping pieces 19;

a cuboid-shaped transverse sliding block 20 is fixedly arranged on the transverse clamping rod 8, two side surfaces of the transverse sliding block 20 are attached to the peripheral wall of the transverse sliding groove to enable the transverse clamping rod 8 to complete radial limiting, a cuboid-shaped vertical sliding block 21 is fixedly arranged on the vertical clamping rod, and two side surfaces of the vertical sliding block 21 are attached to the peripheral wall of the vertical sliding groove to enable the vertical clamping rod to complete radial limiting;

the friction effect exists in the process of mutual rotation between the through hole 10 and the second disc shaft 3, the first disc shaft 2 can be driven to synchronously rotate through the friction effect after the second disc shaft 3 rotates without external force, the transverse clamping pieces 17 can be blocked and limited after clamping the two transverse side surfaces of the multimedia part, and the first disc shaft 2 can not rotate along with the second disc shaft 3 when the second disc shaft 3 continues to rotate;

a driving member for driving the second reel 3 to rotate is connected to the second reel.

The above is a description of the positional relationship of each component of the support, and the following is a description of the specific application condition in the operation process:

as shown in fig. 2, the horizontal clamping piece 17 and the vertical clamping piece 19 are in a maximum expansion state, namely a so-called initial state, and then the multimedia piece to be clamped is placed in the clamping space, and the bottom edge of the multimedia piece is erected on the vertical clamping piece 19 at the bottom, and the periphery of the multimedia piece is clamped by the horizontal clamping piece 17 and the vertical clamping piece 19 when the driving piece is started.

The specific driving principle can be seen in fig. 3 and 4, firstly, the driving part outputs power to the second disc shaft 3, the second disc shaft 3 can drive the second driving disc 5 to rotate, the position relation of the second guide groove 14 on the second disc shaft 3 can change along with the rotation of the second driving disc 5, the vertical clamping pieces 19 are driven to slide in the vertical sliding grooves in a direction-changing manner, and the two symmetrical vertical clamping rods can be driven to synchronously close under the driving of the two centrosymmetric second guide grooves 14;

meanwhile, a friction effect exists between the second disc shaft 3 and the through hole 10, so that the second disc shaft 3 drives the first disc shaft 2 to synchronously rotate, and after the first disc shaft 2 rotates, the two first guide grooves 12 which are centrosymmetric and are arranged on the first driving disc 4 can synchronously draw together the two symmetrical transverse sliding rods under the change of the position relation of the same principle, and the process can refer to fig. 5;

then, when the lateral clamping pieces 17 have clamped the two side surfaces of the multimedia component, the second spindle 3 cannot continue to rotate synchronously with the first spindle 2 after continuing to rotate, at this time, the lateral clamping pieces 17 stop, and the vertical clamping pieces 19 continue to be folded until the multimedia component is clamped firmly up and down, which can be referred to in fig. 6.

In the design, the horizontal clamping piece 17 and the vertical clamping piece 19 are driven synchronously at first, and then the vertical clamping piece 19 is driven independently, so that the appearance design of the multimedia electronic product in the current times is adapted.

After the structure is adopted, as long as the movable distance between the transverse clamping piece 17 and the vertical clamping piece 19 is designed, no matter how many the length and width are or how many the length and width ratio of the multimedia piece are, the multimedia piece can be clamped by the design structure of the support. Even the design structure of the present invention can hold the multimedia device in a cube shape, because the horizontal clip 17 and the vertical clip 19 are moved synchronously at first, if the horizontal clip 17 and the vertical clip 19 in the expanded state are designed at the four corners of the square, the multimedia device in a cube shape can be held.

In this embodiment, the multimedia piece is generally a vehicle-mounted flat plate, so that the longer side of the multimedia piece is horizontally placed, and the shorter side of the multimedia piece is vertically placed, so that the left and right sides of the multimedia piece are clamped by the lateral transverse clamping pieces 17, and then the upper and lower sides of the multimedia piece are clamped by the vertical clamping pieces 19, the multimedia piece can be a mobile phone, the mobile phone also needs to be horizontally placed when being clamped by the scheme of the embodiment, but the mobile phone in the modern society has a screen turning function, so that the mobile phone placed horizontally can be used as usual only after the screen is turned.

In addition, the invention has other optimization modes and conventional technical points, which are described in a short time as follows:

soft gaskets may also be provided on the lateral clips 17 and the vertical clips 19 in order to prevent hard contacts from damaging the multimedia element.

The drive part has more selectivity, so that a micro electronic motor can be conveniently adopted, and the output shaft of the micro electronic motor is in butt joint with the second disc shaft 3, so that the micro electronic motor is turned on only through an external switch in the operation process, and the micro electronic motor is enabled to rotate forwards and backwards; or a handle is adopted and penetrates out of the outer end of the bracket body 1, and the locking is realized in a manual adjusting mode, so that the locking is not easy to realize, in short, the driving piece can adopt various conventional technologies, and the invention is not described in detail.

The mounting part has many alternatives, for example, an adhesive sheet with an adhesive effect is adopted, or a buckle used for being clamped on an air conditioner outlet blade of an automobile body is adopted, and the mounting part can refer to some vehicle-mounted mobile phone supports in the existing market, belongs to conventional technologies with a plurality of categories, and is not described in the invention.

It is to be understood that in the claims, the specification of the present invention, all "including … …" are to be interpreted in an open-ended sense, i.e., in a sense equivalent to "including at least … …", and not in a closed sense, i.e., in a sense not to be interpreted as "including only … …".

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (6)

1. The utility model provides an on-vehicle miniature 5G signal radiation receives integrative piece, is used for carrying on wireless biography and receives 5G signal and have the multimedia spare of electronic screen, be used for carrying out the support of relatively fixed with the automobile body, and multimedia spare sets up on the support, still fixedly is equipped with on the support to be used for fixing the installation department on the automobile body, its characterized in that: the support comprises a support body (1), a first disc shaft (2) rotatably arranged on the support body (1), a second disc shaft (3) rotatably arranged on the support body (1), a first driving disc (4) fixedly arranged at the end part of the first disc shaft (2), a second driving disc (5) fixedly arranged on the second disc shaft (3), two transverse limiting blocks (6) fixedly arranged on the support body (1) and provided with transverse sliding grooves, two vertical limiting blocks (7) fixedly arranged on the support body (1) and provided with vertical sliding grooves, two transverse clamping rods (8) respectively slidably arranged in the two transverse sliding grooves, and two vertical frame rods (9) respectively slidably arranged in the two vertical sliding grooves;

the center of the first disc shaft (2) and the center of the first driving disc (4) are provided with through holes (10) in a penetrating mode, the caliber size of the through holes (10) is consistent with that of the second disc shaft (3), the second disc shaft (3) penetrates through the through holes (10), the second disc shaft (3) is further provided with two shaft body limiting rings (11), and the end faces of the two sides of the first disc shaft (2) and the end faces of the two sides of the first driving disc (4) are attached to the two shaft body limiting rings (11) to achieve axial limiting;

the two transverse limiting blocks (6) and the two vertical limiting blocks (7) are positioned on the same virtual cross, the two transverse limiting blocks (6) are arranged in a central symmetry mode relative to the rotating central lines of the first disc shaft (2) and the second disc shaft (3), and the two vertical limiting blocks (7) are also arranged in a central symmetry mode relative to the rotating central lines of the first disc shaft (2) and the second disc shaft (3);

two first guiding grooves (12) have been seted up to central symmetry on first driving-disc (4), horizontal clamping bar (8) activity sets up in first guiding groove (12), the interval is equipped with two horizontal pole spacing rings (13) on horizontal clamping bar (8), the both sides of first driving-disc (4) are all pasted in these two horizontal pole spacing rings (13) in order to realize the axial spacing, and the width size of first guiding groove (12) is consistent with the diameter of horizontal clamping bar (8) so that the both sides of horizontal clamping bar (8) are all pasted on the perisporium of first guiding groove (12), the orbit central line of first guiding groove (12) is the form that progressively increases up to the distance of first driving-disc (4) central point, along with the rotation of first driving-disc (4): the transverse clamping rods (8) can move relative to the first guide grooves (12) so as to realize that the transverse clamping rods (8) slide in the transverse sliding grooves, and the two transverse clamping rods (8) synchronously move close to or far away from each other in the same direction;

two second guiding grooves (14) have been seted up to central symmetry on second driving-disc (5), vertical clamping bar activity sets up in second guiding groove (14), the interval is equipped with two vertical spacing rings (15) on the vertical clamping bar, the both sides of second driving-disc (5) are all pasted in these two vertical spacing rings (15) in order to realize that the axial is spacing, and the width size of second guiding groove (14) is consistent with the diameter of vertical clamping bar so that the both sides of vertical clamping bar all paste on the perisporium of second guiding groove (14), the orbit central line of second guiding groove (14) is the form that scales up gradually to the distance of second driving-disc (5) central point, along with the rotation of second driving-disc (5): the vertical clamping rods can move relative to the second guide grooves (14) so as to slide in the vertical sliding grooves, and the two vertical clamping rods synchronously approach or leave in the same direction;

the first guide groove (12) and the second guide groove (14) are the same in shape, and the increasing directions of the first guide groove and the second guide groove are both clockwise or anticlockwise;

the diameter size of the first driving disc (4) is larger than that of the second driving disc (5), and the position of the first guide groove (12) in the projection direction is not overlapped with the second driving disc (5);

the end parts of the two transverse clamping rods (8) and the end parts of the two vertical frame rods (9) are positioned on the same plane, the end parts of the transverse clamping rods (8) are vertically provided with transverse vertical rods (16), the end parts of the transverse vertical rods (16) are provided with transverse clamping pieces (17), the end parts of the vertical clamping rods are vertically provided with vertical rods (18), the end parts of the vertical rods (18) are provided with vertical clamping pieces (19), and clamping spaces for clamping multimedia pieces are formed between the two transverse clamping pieces (17) and the two vertical clamping pieces (19);

a cuboid-shaped transverse sliding block (20) is fixedly arranged on the transverse clamping rod (8), two side faces of the transverse sliding block (20) are attached to the peripheral wall of the transverse sliding groove to enable the transverse clamping rod (8) to complete radial limiting, a cuboid-shaped vertical sliding block (21) is fixedly arranged on the vertical clamping rod, and two side faces of the vertical sliding block (21) are attached to the peripheral wall of the vertical sliding groove to enable the vertical clamping rod to complete radial limiting;

the through hole (10) and the second disc shaft (3) have friction effect in the process of mutual rotation, the second disc shaft (3) can drive the first disc shaft (2) to synchronously rotate through the friction effect after rotating without external force, when the transverse clamping pieces (17) clamp two transverse sides of the multimedia piece, the multimedia piece can be blocked and limited, and at the moment, the first disc shaft (2) can not rotate along with the second disc shaft (3) when the second disc shaft (3) continues to rotate;

and a driving piece for driving the second disc shaft (3) to rotate is connected to the second disc shaft.

2. The on-board miniature 5G signal radiation receiving integrated unit as set forth in claim 1, wherein: the horizontal clamping piece (17) and the vertical clamping piece (19) are provided with soft gaskets.

3. The on-vehicle miniature 5G signal radiation receiving integrated piece according to claim 1 or 2, wherein: the driving piece is a miniature electronic motor, and an output shaft of the miniature electronic motor is in butt joint with the second disc shaft (3).

4. The on-vehicle miniature 5G signal radiation receiving integrated piece according to claim 1 or 2, wherein: the driving piece is a handle which penetrates out of the outer end of the bracket body (1).

5. The on-vehicle miniature 5G signal radiation receiving integrated piece according to claim 1 or 2, wherein: the mounting part is an adhesive sheet with adhesive effect.

6. The on-vehicle miniature 5G signal radiation receiving integrated piece according to claim 1 or 2, wherein: the installation part is a buckle, and the buckle is used for being clamped on an air conditioner outlet blade of an automobile body.

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